WOTAN
lndoorandOutdoorLight¡nglncandescent Lamps
Tungsten-halogenLamps
Compact FluorescentLam ps
Fluorescent Lamps
Discharge Lamps
Special Lamps
Miniature Lamps
19BB Catalogue
Contents
lncandescent LampsGeneral Lighting Service 5LINESTRA@Architectural 5Candle 5Round Bulb 5
lncandescent Lampsfor SpecialApplicationsCONCENTRA@ PAR 38-EC7DEKOLUX@ CrownSilvered 7CONCENTRA@ BlownGlass Bulb B
Luminous lntensity andllluminance 9-1 0
HALO STAR Tungsten-halogen LampsMains Voltage Display 12Floodlighting 12Low Voltage MetalReflector 1 3Low Voltage DichroicReflector 14Display and Traffic Signal 14Luminous lntensity andllluminance 'l 5Technicallnformation 16
New ProductsHALO STAR COOL SPOTKLR 51 complete newrange 14
Gompact FluorescentLampsWOTAN DULUX@ ELCIRCOLUX@ ELCOMPACTA@WOTAN DULUX@ DWOTAN DULUX@ SWOTAN DULUX@ L
Fluorescent LampqStandard LampsU-LampsCircular LampsSpecial TypesTechnical lnformationElectronic HF BallastsOUICKTRONIC@ DELUXEStarters
New ProductsWOTAN DULUX@ D26WWOTAN DULUX@ DColour 21MAXILUX DE LUXEcompletion of range
181920212122
24-25262627
28-3',1
32-3334
21
21
27
64
65
H¡gh Intens¡tyDischarge LampsMetal Halide LampsBenefits and OperationLamp TypesTechnical lnformation
Mercury LampsBenefitsOperationLamp TypesTechnical lnformation
3538-3944-48
4041
42-4344-48
Sodium LampsBenefits and Operation 49High Pressure SodiumLamp Types 50Low Pressure SodiumLamp Types 51Technicallnformation 52-54HID Ballasts 55HID lgnitors 56Selection of Ballasts andlgnitors 57
New ProductsHOt E 400iD 39HOr r 400/D 39VIALOX@ NAV DE LUXE1 50, 250 and 400 W 50VIALOX@ NAV SUPER250 and 400 W 50VIALOX@ NAV.T 5O/E 50
Special LampsHQV and 1.../73 BlackLight LampsULTRA.VITALUX@ UVLamps for TechnicalApplicationsULTRA.VITALUX@Sunlamps@EVERSUN@ UV-AFluorescent LampsULTRAMED@ MetaIHalide LampsWOTAN DULUX@ inSpecial ColoursHNS Germicidal andOzone Generating LampsSICCATHERM@ andHALOTHERM@ lnfraredLampsTHERMATHERM lnfraredLamps
New ProductsWOTAN DULUX@ S7/78,11172 and 11/78HNSGSOFRGermicidatLamp
60
61
62
63
64
65
59
66
61
Miniature LampsMINIWATT@ Tungsten-halogen Miniature Lamps 69Lamp Types 70-72Technical lnformation 73
Spectral PowerDistribution 74-75Lamp Base Comparison 76Sales Programme 77Registered Trade Marks,General lnformation 78Who is WOTAN? 79
Decorative LiqhtinoSets and LumTnaire-s
are shown in our newcatalogue "llluminatinoldeas" which is availa6leupon request.
llluminating ideas are:
MAXILUX@ COMBIWOTAN DULUX@ CO.MBIWOTAN DULUX@ CLIPWOTAN DULUX@ TABLEWOTAN DULUX@ CARREWOTAN DULUX@ PLAFONDLUMINESTRA@CIRCOLUX@ RONDELCIRCOLUX@ SetMINISPOTMAXISPOTHALOTUBEMINI STARMAXI STARHALOSPOTHALOCENTHALOFLOODTRISPOTFLORA SetFLUORA@ COMBIGARTENSPOTPOWER STAR COMBIJOGGILUXMULTI HALOGENHOBBY HALOGENSIGNAL HALOGENHALOGEN MOBIL SPOTHALOGEN SERVICE SPOTCOPILOTAGILETTELINESTRAO SetLUNETTATHERMATHERM@
3
lncandescent Lamps
I
General Lighting ServiceL¡ N ESTR A Arch itectura I
CandleRound bulb
¿vefage
Len0th
(t)
max.
mm
DiameterluminousLampLamp
Raled
Lamp voltage wattageLuminous
eficacyrelerence
General lighting serviceGeneral light¡ng service lamps can be economically used in households as well as forcommercial purposes. The pearl frosted lamps decrease glare and shadows whilstclear lamps emit a bright light.Pearl or clear, coiled-coil filament
25 (1) 230
40 430 11
60 730 '105
240 75 960 E27 orB22d 1000
100 1 380
150 2220 65 118
200 (1) 3150
Ll NESTRA@ architecturalThese modern architectural lamps when suitably arranged enable an attractive linearillumination (e.9. in built-in cupboards. kitchens or drawing rooms). On account of theirsoft and flattering light they can be used also singly and can easily be installed overworking areas in kitchens.Silica
1 603
1 604 60 420S14s
2 bases840 30 1 000
1ô13 (1) aÊ 240
1614 (1)s 14 d500 1 base
('1 ) Possibly subjecl to minimum ordering quantity.
Plain candleThese small attractive lamps radiate a glaze-free light and are particularly suitable fordecorative lighting e.g. in crystal chandeliers or other decorative ceiling, wall orstandard luminaries.Clear
40 400 B 15 d
60 660
, 200 100
40 400 B22d60 660 11
40 400 814 10
60
1104 (1) 240-250 1207
300
240
JoL-
d
ll
Silica
25 180 7
40 360 B 15 d
60 600 10
240 1R 180 J5 100
40 360 B22d
d 60 600 10
40 360
o
7
E14
Round bulbRound bulbs are particularly used for decorative lighting. Because of their spacesaving dimensions they are suitable for a multitude of small luminaries.Silica
ta 180
d
B 15 d40 360 I25 180 1
I
240
40 JbU
45 80
B22d
5
L
lncandescent Lamps forSpecial Applications
CONCENTRA@ PAR 38.ECDEKOLUX@ Grown Silvered
Lamp
reference
Lamp
voltage
Lamp
powef
lnitial
Beam
flux
lm degrees
Diameterlumrnous
angle
Length
(D
max.
mm
lvlounting
deplh
mm
Râted
life
h
Luminous
eficacy(d)
mm Base
CONCENTRA@ PAR 38-EC
An economical alternative lamp which brings 20% energy-cost savings compared toconventional PAR reflector lamps.This advantage is obtained with the photometrically perfected reflector. thedecreased diffusion loss and the new wattage range. The other characteristics of thePAR-lamps, e.g. double life. sturdy and compact construction as well as theirweatherproofness remain the same for the CONCENTRA@-EC lamps.
CONCENTRA@ "SPOT" sealed beam PAR 3B-EC, internal reflector.
SP/EC 240-250 80
60060
60060
800 12' 122 1 36 123 E 27 2000 1 0
122 1 36 123 Ê 27 2000 1 0
60 104I
65 123
120 1 200
CONCENTRA@ "FLOOD" sealed beam PAR 3B-EC. internal reflector
FL/EC 240-250 80 30"800
200120
DEKOLUX@ crown silvered
DEKOLUX@ lamps are incandescent lamps with gold or s¡lver crowns meeting thedemands for decorative or spot lights in the domestic as well as the commercialsectors. e.g. in modern homes. show windows and sales rooms displays.
GLS bulbClear or pearl, silver or gold crown
40 (1) 290 7
0
240-250 60
GLS bulbPearl. silver crown
100 1 000
500 E 27 1000
E27 1000
Round bulbClear, silver or gold crown
60 (1) 5002aQ-250 '
100 (1) 1000
25 t1) 1602ÃQ-250 '40 280
60 104 I65
45
123
80
10
814 1000
E 14 1000 6
7
dDEKOLUX@ S
Round bulb with pointed crown-a new reflector technique offers a better energyutilizationClear, silver crown
240-250 40 320 E 14 1000
Small round bulb with pointed crown.Clear. silver crown
7845
75240-250 30 (1) 190 JC
(1) Possibly subjecl to minimum ordering quantity.
I
+d
d
7
ra
CONCENTRA@Blown Glass Bulb
lnitial Length
(t)
max.
mm
Djameter
" (d)
mm
Lamp
voltage
Lamp luminous Beam
angle
degrees
Mount¡ng
Base
R¿ted
av€fage
lile
Luminous
eff¡cacy
lm/w
watt¿ge
CONCENTRA@ reflector lamps
Because of their focused light beam these lamps are especiallV su¡table for effectiveillumination of rooms or large spaces, e.g. show windows, sales rooms, reception halls,arcades etc.
CONCENTRA@ R 39
240-250 39
CONCENTRA@ R 50
flux
lm
depth
mm
d
R39
R50
R63
R80
R95
(1) 1t0 40"
b.l 103
80 114
95 134
58 E 14 1000
t0 E 14 1000
85 827 1000
90 E27 1000
110 827 1000
66
240-25025 (1) 180
40 40035' 50
CONCENTRA@ R 63, "SPOT" or "FLOOD"
40 (1) 340
60 (D 650JÕ
240-250
8610
I
d 40
60
CONCENTRA@ R 80
340 870'
650 11
40 (1) 320
60 530240-250 _
75 (1) 730
100 1 080
CONCENTRA@ R 95
75
240-260 100
o
80'10
11
I690
1030 35"10
150 1 520
(1) Possibly subject to m¡nimum order¡ng quantity.
I
IIt
CONCENTRA@Luminous lntensity in cdIlluminance in lx
t ¿
10'
t
I
90'
80'
70"
60'
50'
100
200
200
400
30"
600
400
100
400
20"
AåI
t
CONCENTRA@ R 50, 35", 25 W and 40 W
20'
10'
CONCENTRA@ R 63, 35o, 40 W and 60 W
80"
10"
CONCENTRA@ R 80, 80o, 75 W and 100 W
I
I50
80'
70'
60'
50"
40'
30'
100
200
300
400
150
10"
CONCENTRA@ R 80, 80o, 40 W and 60 W
10. 0' 10"
åI
I
90' Jå80"
70"
60'
50'
40'
800
12002000
2500
R50,25W
180 lxl--
R50,40W
1,0m400 lx-{
180 lx
2,0 m100 lx
1,5m
126cm+
ø 63cm
45 lx
lx
R63,60W
750 lx.\ 1,0 m
Rô3,40W
400 lx
L-'
t,Ðm
2,0 m1s0 lx
lx
l26cm
ø 63cm
ø 95cm
180
R80,40W
120 lx
R80,60W
3\ l,0m
lx
lx
ø168cm
----30 lx
252
m
ø
lx
R80,75W
280tx
R80.100w
1,0m
1,5m180 lx
lx
-e-
70 lx
252cm
m
ø
120
R95.75W R9s,100w
1,0m1350 lx
1,5m
2,0m
lx
lx
ø
lx
lx
\.-..-
2000 lx
R95,150W
ø 63cm
IX
ø
2,0m500 lx
o
CONCENTRA@ R 95, 35o, 75 W and 100 W CONCENTRA@ R 95, 35O, 150 W
_-=
CONCENTRA@Luminous lntensity in cdllluminance in lx
ê,A'
10001000
t.l
t
i
I
f
90'
80"
70"
60'
50'
40.
30'
90'
B0'
70"
60'
50'
40'
30'
Is3
120W SP/EC
\1m
-l-fÀ*ø 21cm
h,À,J2m
cm
lx3m
ø
4m
ø
3000
4000
5000
1000
1500
2000
5000
3000
7000
900020' 20"
0' 10' 0'
0'
^^,
CONCENTRA@ PAR 3B-EC, 12",60 W SP and 80 W SP CONCENTRA@ PAR 38-EC, 12', 120 W SP
2000
3000
t
t
90"
80"
70'
60'
50'
40'
30'
500
90'
B0'
70"
60'
50'
40'
30"
20" 20"
0' 10' 10'
CONCENTRA@ PAR 38-EC, 30o, 60 W FL and 80 W Ft CONCENTRA@ PAR 38-EC, 3Oo, l20 W FL
Luminousintensityd¡stribution
Halfluminousntensity
llluminance of reflector lamps
The listed illuminances in lux are maximum values. They decrease to the periphery byhalf.
Beam angleThe Beam Angle in an axially symmetrical light distr¡bution is the angle through thepoints where the luminous intensity becomes half of its maximum value.
Max. luminous
60W SP/EC
Ilx3400
80W SP/EC
lx lm
lx lx2m
Ø
lx3m
0lx4m
340
Ø
,/
\
ì-l-..--
II
-T
t+I
-l
i ;\I
60W FL/EC 80W FLIEC
1800l,0m
IX
2,0m450 lx
mlx
Ø cm
ø B0cm
lx
Ø
/
120W FLIEC
1,0 m
ø 54cm
mlx
2,0m
ø cm
Ø cm
10
angleintensity
HALO STAR@Tu ngsten -halogen Lampshigh constant luminous flux2000 h average life3000 K colour temperaturefully dimmable
I
I,
HALO STARMains Voltage DisplayFloodlighting
Lamp desig
reference nation
avefâ0e
Length
(D
max.
mm
Diameter
LIF L¿mp
vollâge
Lamp
wattage
Luminous
flux
clear (11
lm
R¿ted Lum¡nous
efficacy
clear
HALO STAR mains voltage tungsten-halogen displayModern light sources with long lamp life and yet high luminous efficacy. The filamentsegments which are almost parallel to the axis provide a 20% higher useful luminousefficacy in the reflector compared with GLS lamps.
Application:Downlighters, wallwashers, floodlights and pendant lamps as used in lobbies.auditoriums, conference rooms, restaurants, in sales areas and modern living rooms.
Universal burning position. Pinch temperature max. 350"C.Pearl or clear.Colour temperature 3000 K.
64414 (2)
B15d
Fa4
E permissibleø not permissible
64476 (2\ (K/16)
Lamp
relerence
LIF vohage
R7s
Burning position
E?7
l5 1000
100 140085 55
1 500 14
2000 1l
1 500 14
2000 11
E2l64418 (2) (K/13) 1 50 2500
250 420031
't05
64480 (2)240-250
64473 75 1000
100 140021.4 86 55
64415B22d
64411 1 50 2500
250 42001 5.5 95 67
64479
(1) Luminous flux of pearl lamps approx. 5% lower.
(2) Wilh protective bulb, base edge lemperature max. 250'C.
HALO STAR linear tungsten-halogen floodlightingBright, brilliant white light, pleasant colour rendering and high luminous flux combinedwith long lamp life are the advantages of these lamps. Direct use on supply withoutthe need for a ballast is a further quality which make these HALO STAR ideal lightsources for floodlighting installations.
Applications:Floodlighting:Only a few lamps suffice to adequately illuminate buildings, monumentsor fountains at night.
Sports: Small sports grounds and halls can be easily illuminated at night for training orcompetition matches.Traffic installations:'ln streets, squares. large parking lots. these lamps with theirconstantly bright light facilitate a fast and safe traffic flow.Also suitable for airports, building sites and factories.Colour temperature 3000. K.
75
Lamp Lamp
watlage
Luminous
flux
lm
Luminous
efficacy
Diameter
refe¡ence
64690 (1) Kll4 100 1400 26 78.364695 (1) Kl12 240-250 150 2500 2
64698 K/1 1 200 3200
64703
6470{
115-120
uo-250K/9 300
5250
5000 60 117.6
64700
64102
115-120Kl1 500
1 0500 R7s-1 5
9500240-250
64560 K/3 750 1 6500
64735
647 40
11s-120_ 1000Kl423000
22oOO
125 189.1
64760 K/S
64?83 K/6
1500 33000240-250
64184 (1) K/g2000 44000
(1 ) Possibly subject to minimum orderìng quantity.(2) Max. pinch temperature 350'C.
1 ô5 254.1
ta4 215 334 max.
R7s-1 5 220 331.0
12
12
1022
HALO STARLow VoltageMetal Reflector
reference reference
Beam
Lamp angle
wattage degrees
Raled
Base
45
50
45G 53 (1) __ 2000
48
45
50
2000
Lamp
vollage
Luminous
¡ntens¡ty
cd
Luminous
efficacy
Luminous Length
I
mm
average
LIFLamp flux
lm
life
h
HALO STAR tungsten-halogen low voltage metal reflectorWith their accurately computer-calculated reflectors these HALO STAR are especiallysuited to display objects of art. These small light sources make possible excellentfloodlighting even in bright surroundings.HALO STAR with "Gold Reflector" provide decorative appearance and warm light.HALO STAR with reflector promote sales because they put the merchandise in theright light. The use of flood or spot lamps depends on the size of the objects and theirdistance from the light sources.SUPER SPOT and MAXI SPOT have an anti-glare grip cap preventing direct glare andpermitting easy insertion into narrow luminaires.
Universal burning position.HALO STAR AR 111, aluminium reflector of 111 mm dia.
SUPER SPOT silver reflector Colour temperature: 3000 K
41 830 SSP
41 835 NSP
41 835 SP
41 835 FL
41 840 SP
41 840 FL
4't840 WFL
41 850 SP
41 850 FL
4'i850 WFL
41 990 SP
41 990 FL
6 35 3 45000 600 1l
5 30000
I
Y
50 10 20000 950
30 2500
19
=II
I
10 25000
12 75 30 4000 1 500
60 800
20
-+- I >- 10
100 30 6000 2500 25
18
HALO STAR AR 1 1 1
SUPER SPOT
HALO STAR AR 70MAXI SPOÏ
HALO STAR AR 48t\4tNt sPoT
60 1 200 48
HALO STAR AR 70, aluminium reflector of 70 mm dia.
MAXI SPOT silver reflector Colour temperature: 3000 K
41 970 SP 10 5000
30 ô0041 970 FL
oÈ 950 BA1 5d 50 2000 1 I
950 BA1 5d 50 2000 1 I12 50
HALO STAR AR 48. aluminium reflector of 48 mm dia.MlNl SPOT silver reflector Colour temperature: 3000 K
41 960 SP 120
12 5010 10000
30 1 100
35020
20t541 980 SP 10 1 5000
30 3000i 500
41 980 FL
HALO STAR AR 70, aluminium reflector of 70 mm dia.
MAXI SPOT gold reflector Colour temperature: 2600 K
/100Ã co
41 995 FL
41 91 0 SP (2) 10
41 91 0 FL (2)
41900 SP (M/48)
41 900 FL12 20
41 920 SP (2)35
41 920 FL (2)
41 930 SP 24
(1) Connection with llat plug 6.3 or screws M4.(2) Preliminaryinform¿1ion.
'10 9000
30 950
1210 1 500
140 1415 400
10 3800
1 5 1000350 G4 31
18
10 6000
15 1700600 17
20 10 3800 350
10 3100
15 S5o
1000 18
31 2000 1 I
HALO STAR AR 48. aluminium reflector of 48 mm dia.MlNl SPOT gold reflector Colour temperature: .2600 K41 905 SP
41905 r-L12 20 350 G4
13
T
HALO STARLow VoltageDichroic ReflectorDisplay and Traffic Signal
HALO STAR tungsten-halogen dichroic reflector
Cool Spot 'The heat contained in the beams of these lamps is reduced by 66 %.
This makes these lamps especially suitable for the display of heat-sensitive goods
HALO STAR KLR 51
Universal burning positionBase GX 5.3
Colour temperature 3000 K
Rated average life 2000 h
Lamp
reference
LIF
reference
ANSI
reference
Lamp
voltage
Beam
angle
degree
l\¡aximum
luminous
intensily
cd
Lamp
20
Luminous
eficacy
44.5 max.
HALO STARKLR 51
GY6 35
wattage
41 860 SP f//68
41860 WFL M/94
41870 SP M/49 1 0000
41870 FL ¡//50 3000950 19
41870 tVFL 2500
41870 WFL N¡/58 1 500
41 880 SP tv/60
41 880 FL 1 350 18
41880 WFL [//61
HALO STAR tungsten-halogen display and traffic signal
This range distinguishes itself on account of the high luminous efficacy of up to 25
lm/W as well as a sturdy and compact construction. These lamps are. therefore, wellsuited for very small fittings.
Universal burning position Colour temperature 3000 K
1250
15
Lamp
LIF
relet
ence
Luminous
llux
lm
Lamp
waltage
Luminous
efficacy
reference
64410 Ml42 6
64405
64415 12 31 195 G42000
2000
4000
64425 Ml4720 350
64435 (1 )
64430
6401 6 r1132
64450 1?
64458 l\ll2\ 1 00 2500
64445 (1 )
6445524
64460 (1) M/67
64465
(1) Use quick'acting high breaking64455 and 64460: 6.3 A, 64465
50 850
-- ?Ë 14oo
100 2200
12 44 30 GY6 35
2000
1 50 3200
capacìty fuse in line with lamp on secondary side of transformer: lor 64435: 2 A,64445.4 A,
:104
is0.80"
700
60.
50'
40.
30.
à 50W NSP
30 000 D
35W SSP
15000 lx1 n m
.þ I cm+7500 I
+Ø5cm
I250lx2om
ø18cn3330
'føtocm
jP00 r* :.0,ø26cn
1850
16 cmt^2800
Ø35ç\ FT-
HALO STARLow Voltage ReflectorLuminous Intensity in cdllluminance in lx
---41835SP -41840SP
90"
^,70
60.
90'80"
70"
60'
50'
40.
30.
20.
^+
/5WSPr5000 'll''
1OO W SP
000 lx10m
* øiiir .*ru ro,', L1]rro o ,.0.
1670 lx
ölx
I"î*F
75
800 lr
\100w wFL
1200 lx
Ìt ,,u-
.5 ûì1
lx
.mñ
*
---41980SP -41850SP
---41 835NSP -41B30SSP
I
i
.4.
IÃ
I
30000
^,Â
30000
cd,8
0. r0.
10"
t0
90.80"
70ô
60'
500
70
+
90.80'70.60.
50.
40"
30.
20"
90"
2A
I
cd^
cd^
2004
100
10.
t0
90"80.70.
60"
50'
40.
30.
600
1200
20-
---41835F1 -41840Fl90.
10000 24.
0" r0'
10"
---41980F1 -41850Fl
0' t0"
0 10'
cdÃ
---41840WF1 -41850WF1
74.
---41960SP -41900SP/
41 930SP'
700
60.
50'
40ô
30.
5000
10
60.
50-
40"
30, 30.
20"
1000
2000
3000
4000
5000
10.
---41970SP -41990SP
---41970F1 -41990Ft
90
8U
t0
50
JO
30
rdð.
5000
t0{!10
cd^
600
1500
24AA
20nr
-41900F1cd
^.
4000
--- 41860 SP -4t870 SP - 4IBBO SP
90
80
t0
60
50
40
30r0002000
1500 x 2200 li
6/0 r
-l9¡l
550 tr\\ 2A
2A
10
20000 000 lx
+ø
1250
ø cm
W
)
lx
sOW FL
2s00
75W FL
x j.o
J'øs
lll0 x
cm
lx#,u
630 lx
--7.:Jl .,,lt
cnl
75W FL
3000 lx
lOOW FL
Ø cnllx
ø cm
5000 000 lx
x
>Øi560 lx
'*¡.0
{lo ¡310 l!-.
ø77
cm /
600
20W FL
ix
sOWFL
lx
cmØ
L)1 cnl
1OW SP
1500
20W SP
x1
380
lxm
90
ø
/l\1000 lx
2OW FL
1.0 rn
ø
lx
ø cm
3Jn¡
00û
6r
75 \¡J SP
50WFL
3000
75WFL
l' rotJIL/t\
1330 lr I 1870 tr/-..f,t r t ,n
/l:l\lt\
i50 k I 1050
/"'¡t\
600 lx
50 W I\IFL
T260 *
57
87
20
. 145 cm
150
-- 41870 FL - 41880 FL .-- 41860 WFL - 41870 MFL -- 41870 WFL - 41880 WFL
15
Technical lnformation
Voltage characteristics iSupply voltage variations affect the lamp characteristics of all incandescent lamps.
The diagrams below show the relationships. Correct matching of lamps and supplyvoltage is therefore important.
Standards
WOTAN lncandescent Lamps comply with the following lnternational and BritishStandards. where applicable:IEC 61 Lamp Caps and HoldersIEC 64 Tungsten Filament Lamps for General ServiceIEC 357 Tungsten-halogen Lamps (Non-vehicle)BS 161 Tungsten Filament Lamps for General ServiceBS 555 Tungsten Filament Miscellaneous Electric LampsBS 1075 Tungsten-halogen Lamps (Non-vehicle)BS 5101 Lamp Caps and Holders
Voltage Characteristics Standard lncandescent Lamps
ìo0
Rule of thumb:5% overvoltage :
50% shorter life15% higher luminous flux
8% higher power consumption3% higher current2% higher colour temperature
il0
5% undervoltage :100% longer life
15% lower luminous flux8% lower power consumption3% lower current2%o lower colour temperature
Vo ltage Characteristics T u ngsten- halogen Lamps95 r00
ì05
90
500
ìro % r20
ì00
ìóo
ì¿o
ì20
lo0
50
rl
ñt^o:o
o.:soÉ,
300
200
r30
r20
r00
90
àS
t^oa(É
o.:!oE
il0
r05
r00
80
óo
50
¡0
30
o20
70
óo
50
roo lo5
\
I
-.ôC.
.þ> I
I
'/
/
)
-
r'
'{ | ',1.
16
90 roo
Supply Voltage (%) 95
Supply Voltage (%)
Compact Fluorescent Lamps
WOTAN DULUX@ EL
WOTAN DULUX@ El-the electron¡c GLS lamp with base E 27 or B 22d
The new WOIAN DULUX@ EL contains an integral fully electronic ballast. lt assures a
soft instant start and guarantees high lighTing comfort. The warm agreeable light isradiated equally all around.
The modern technology of the WOTAN DULUX@ EL permits energy savings of up to
B0% compared with equally bright GLS lamps.
WOTAN DULUX@ EL lamps (7W,11W) are not much bigger than standard GLS lamps
and therefore fit almost any luminaire. Their life is six times as long as that of GLS
lamps.
WOTAN DULUX@ EL. the compact fluorescent lamp with convincing advantages:
O high luminous efficacy. Soft flickerfree instant start made possible by modern
electronicso up to B0% energy savings compared with conventional incandescent lamps
o six times the life of conventional GLS lamps
o free of radio interference as per EN 55015 : VDE 0875 Pt 2
o GLS base E 27 or B 22d - easily interchangeable
a warm agreeable incandescent lrght
¡ excellent colour rendering. outstanding light distributiono because of its economy ideally suited for permanent lighting
a¡ universal burning position
¡ low weightoWOTAN DULUX@ EL are suitable for emergency circuits on 240 V DC
Applicationsln the household:WOfAN DULUX@ EL fit almost every domestic luminaire with E 2-/ or B 22d
lampholder. particularly where permanent lighting is required.
ln commerce:ln restaurants, hotels. foyers, counter halls, corridors, surgeries and offices. retrofittingwith WOTAN DULUX@ EL will extend replacement cycles considerably. The energy
cost saving compared with GLS lamps is up to B0%
Lamp reference
Supply voltage V
Supply f.requency Hz
Circuil watlage W
lnitial luminous flux lm
L¡ghting design lumen lm
Luminous efficacy lm/W
Colour
Colour temperature K
CIE colour rendering group
Length I mm
Diameter d mm
Weight g
Burning pos¡t¡on
Base
Average life h
worAN Dutux@ Et11 15
240,250
50/60
INTERNA
2700 Warm like ìncandescenl lamps
1 B, very good
Universal
E21 or B22d
1 200
1 100
7W nn :401i w llll : 6015W l\ :7520w 9 :100
18
a Not suitable for dimming circuits
6000
T
II
CIRCOLUX@ EL
C¡RCOLUX@ EL-an energy-saving compact fluorescent lamp with electronicballastA new lamp generation by WOTAN:the circular compact CIRCOLUX@ EL fluorescent
lamp for economical interior illumination.
The power consumption of CIRCOLUX@ EL is low. With equal brightness it saves 3/4of the energy costs. The design of CIRCOLUX@ EL is that of a fluorescent lamp and,
therefore. guarantees a long lamp life. lt will last even longer with fewer switchings.On account of its low power requirement, it pays to keep this lamp burning!
CIRCOLUX@ EL-a new type of lamp with convincing qualities:
a Low power consumption, high luminous efficacy¡ Bright as an incandescent lamP
¡ Pleasantly warm lighto Excellent colour rendering
ar lnstant flicker-free electronic start¡ Approximately same height as a 75 W incandescent lamp
o ô trmes life of GLS lamps
a Low weight
Application:
CIRCOLUX@ EL is particularly suitable for places where long burning periods are
required, e.g. restaurants. hotel foyers and banking halls. But also at home it offersmany possibilities: as decorative illumination over dining and work tables, in floor and
wall fittings, with sufficient space it provides good illumination of the lamp shade.
Lamp reference ctRcotuxÈ EL 18 ctRcoLUxÐ EL 24 ctRcotux'¡ Et 32
Supply voltage and frequency 240-250 V 50/60 Hz
Circuil power W
lnitial luminous flux lm 1 450 2000
Liohting design lumen lm 1 850
Circuit efficacy lm/W
Colour 41 N/AXILUXO INTER
Colour temperature 2700 K warm like incandescent lamps
CIE colour rendering group 1 B, very good
Overall diameter d mm
Lamp lenoth I mm
Burnrng pos¡tion Universal
Weight g
E2l o¡ B22d
Average life h 6000
o Not su¡table for dimming circuits
18W24W32W
:75W:100 w:150
l19
COMPACTA@
COMPACTA@-an energy-sav¡ng.alternat¡ve to incandescent lamps for indoorand outdoor use
A range of compact fluorescent lamps with integrated starter and ballast.
With their E 27 and B 22d bases COMPACTA@ lamps can be interchanged withincandescent lamps.
ln indoor and outdoor fittings with long burning cycles COMPACTA@ lamps help toachieve considerable operating cost savings.
The most important advantages of COMPACTA@ lamps are:
¡ pleasantly warm light comparable to that of incandescent lamps
o excellent colour renderingo six times the life of incandescent lamps with the same luminous flux
a bases E 27 and B 22d
o universal burning position
a suitable for indoor and outdoor use
coMPACTA@ PRISMATIC
Lamp reference 18
Supply voltage and frequency 240 V 50 Hz
Circuit power W 25
ln¡t¡al luminous flux lm 1 200
Lighting des¡gn lumen lm 1 100
Circuit efficacy lm/W 48
Colour appearance 41 IVIAXILUXR
Colour temperature 2700 K, warm, like incandescent lamps
CIE colour rendering group 1 B, very good
Height lmm 111 181
Diameter d mm
Burning position lJniversal
Weight g 560 710
Base E2l andB22d
Service life h 6000
o Not suitable for dimming circuits
18
900
830
50
t3
.18 W
25W: 75W:100 W
20
r
WOTAN DULUX@WOTAN DULUX@
WOTAN DULUX@ D - the modern, energy-sa\r¡ng fluorescent lamp with thedimensions of a GLS lamp
The single-based WOTAN@ D is only slightly longer than a GLS lamp but slimmer by a
third. Therefore it is ideal for miniaturized, unconventional luminaires and downlights forshallow recesses and for new lighting systems. The starter is integral in the plug-in base.
o half rhe lengrh of woTAN DULUX@ S
o as compact as GLS lamps, for space saving luminaireso power consumption only 20 to 25% of equivalent GLS lamps¡ symmetrical luminous intensity distribution as from GLS lamps¡ pleasantly warm light with excellent colour rendering¡ long relamping cycle due to lamp life of 5000 hours¡ single plug-in base G 24 d-1 of 10 and 1 3 W, G 24 d-2 of 1B W and G 24d-3 of 26 W
with integral sÌarter and RF suppression capacitor.
Ds
s
I
I
WOTAN DULUXf D
O
! lnitial Lightrng
design
lumen
lm
Lenglh CIE ctE
colour
appeaÌance
gfoup
34 -'Lamp
w¿11age
Luminous l,
efficacy
l, colourluminous
Lamp reference
m¿x
mm
flux
lm
rendering
group
10w13WlBW26W
ffiH
60w75W
:100w:2x7\tN
WOTAN DULUX]I D 1O/21
WOTAN DIJLLX". D 10i41
WOTAN DULUXÐ D 13/21
WOTAN DLtrLJX-.D ßI'1
Colour
21 N4AXILUXs White
41 il/AXtrIJX¡I N]TERNA
21 MAXI White
41 MAXILUXO INTERNA
10
13
600 550 60 95 118
900 850 69 1 30 1 53
I
W
t-
1BWOTAN DULUX€ D 18/21
WOTAN DIJLtJX",D 1T/41
2i IVAXILUX€,Whitc
41 r\¡Axtrux%llERNA1200 1100 61 150 11318
WOTAN DUIUX.¡ D 26i21
WOTAN Dt]LtJX" D '6141
Lamp reference
WOTAN DULUXE S 5/21
WOTAN DULUX!'S 5i4i
21 N/AXILUXolVhite
4 1 lVAXltuX.' ['lTE RtJA
21 lVAXlLtiXo White
1800 1650 69 1i0 19326
Circuits 1 and 2 see page 28A four-pin versron of the WOTAN DULUX@ D for electronic ballasts, dimming,emergency system etc is available. lt does not contain an integral starter. Lampreference WOTAN DULUX@ D/E
WOTAN DULUX@ S - the s¡ngle based compact fluorescent lamp
The WOTAN DULUX@ S is very flat. lts thin tube diameter of 12 mm makes it the ideallamp for creative luminaire design and modern lighting systems, eg for super flatceiling and wall luminaires.
o high luminous efficacy and lighting comfortO low power consumpt¡on: 5 W, 7 W, I W, 11 W¡ as bright as GLS lamps wirh 25 W, 40 W, 60 W and 75 Wo life five times as long as and power consumption only 20 To 25o/o of that of
incandescent lamps with equal luminous fluxo warm pleasant light. excellent colour renderingo single plug-in base with integral starter and RF suppression capacitor.¡ universal burninq positiono small dimensions
lnitial
N
WOTAN DULUX¡ S
ulo
Lamp
waltage
Lighting
design
lumen
lm
Luminous lj
ellicacy
crE
colour
appeafance
group
lüminous
Length CIE
12 colour
max rendering
mm qfoup
flux
lmColour
5 __ 250 230 50 85 10841 MAXILUXO INIERNA
WOTAN DULUX¡ S 7i2i
WOTAN DULUXù S 7/41
21 ÍúAXILUX'ÐWhite
41 IVAXILTJX'N{TERNA400 370 57 115 138
WOTAN DULUX¡ S 9i21
WOTAN DULUX'I] S 9/41
21 N/AXILUXo White
4 1 tr/AXIL tixt [.]TERNÂ600 550 61 i 45 1 68
WOTAN DULUXF S 11/21
WOTAN D|.JLLX" S 1T4111
21 fi4AXlLUX@ White 900 850 82 215 23841 IMAXILUX(l INTFRNA
¡l
2l n¿t
fJ :25Wllll :4owirl :6owtr :75W
5W7W9W
11W
Circuits 1 to 3 see page 28
1B
21
d 38
WOTAN DULUX@ L
WOTAN DULUX@ L
Gompact fluorescent lamps for riew short luminaires
WOTAN DULUX@ L are new compact fluorescent lamps of higher wattage ratings
with h¡gh luminous intensity. With this new lamp range WOTAN offers a new lightsource with approximately the same luminous flux as conventional fluorescent lamps.
woTAN DULUX@ L are available with 18w,24 W and 36 W ratings and the tried and
tested colour appearances MAXILUX@ While. MAXILUX@ Warm White and MAXILUX@
INTERNA@.
Their excellent colour rendering properttes permit their use in the most demandinglighting situations.
WOTAN DULUX@ L-advantages whrch open up new vistas for designers and lighting
consultants:
¡ powerful and yet compacta luminous fluxes and power consumption similar to tubular fluorescent lamps but
only 1/3 as long-more compact than U-shaped and circular lamps
o excellent colour rendering properties
¡ can be combined with existing MAXILUX@ lighting installations
o suitable for operation with electronic or conventional ballasts
¡ single 4-pin base 2 G 11
¡ service life 7500 h
ApplicationWOTAN DULUX@ L open up completely new and interesting dimensions for lighting
designers to plan quile unconventionally and economical indoor and outdoorinstallations. Especially in oblong. square or round ceiling or wall luminaires for foyers,
offices. sales and showrooms. ldeally suited also for new short louvre fittings withlengths of 30. 40 or 50 cm. e.g.2 x WOTAN DULUX@ L 36 W (5800 lm) in a 50 cm
fitting instead of 1 x L 58 W (5a00 lm) in a 160 cm long louvre luminaire.
23
WOTAN DULUXN L
Tube
dia
d
lnitial Lighling CIE
des¡gn Luminous Length coìout
lumen eff¡cacy I rend€ring
lm lm/W mm group
clE
colour
appearance
gf0up
Lamp
Lamp relerence
WOTAN DULUX" L'18W/21 21
WOTAN DULUXñ L 18W31 31
WOTAN DULUXñ L ']8W41 41
WOTAN DULUXi L 24W21 ?1
u/0TAN DuLtrx" L 24\¡//31 31
WOTAN DULUXi L 24W41 41
WOTAN DULUX,E L 36W2'! 21
WOTAN DULUX¡ L 36W31 31
WOTAN DULUX^ L 36W41 41
luminous
wattage flux
lmColour
l\/AXILUX@ White
IVAXII IJX@ INTERNA
MAXIL tJXGrWarmWhite 1200 '1100 67 225
17.5 MAXILUX€] Warm White 1 800 1 650 75 320 'l B
tüAXILUXÔ White
IVAXILUX@ INTERNA
IVAXILUX@ Warm White 2900 2650 81 415
MAXILUXÐ White
MAXILUXß] INTERNA
22
l:¡. :l :ìr iL,.: l:;:i l:ir'1:]x:tj: :i]
G) ri);ô
Standard Lamps
First choice lamps are printed in bold letters
Nominal
dimensions
length x
diômeter
mm
'150 x 16
Lrminous flux crE
Colour
rendering
gfoup
(1)
ctE
Colour
appearance
gfoup
12)
L amp
wattage
Bôllas1
rating
Lamp
reference
14120
I nitial
lm
Lighting
design
lm
Lumirìous
eficacy
Colour
20 Cool White 140 110 35 24
23 White L 4123 130 100 32 3
20 Cool White L 6120 215 240 486 225 x 16
I
50
54
50
250
400
360
300
430
400
60
63
õt700
420
580
875950
800
480
63010
23 White L 6123
41 MAXTLUX@ TNTERNA@ r 8/41
3$ x 16 20 Cool White L 8120
1B w
w
23 White L 8123
470 x 26 41 MAXILUX@ INTERNA@ L 10/411B
13
41 MAXILUXO INTERNA@ L 13/41
525 x 16 20 Cool While L 13120
23 White 113123 850 750 65
21 MAXILUX@ White L 15121 1000 920 671B
15 20450 x 26 41 MAXILUXo INTERNA@ L 15/41
M950 63
W875
800
21 MAXILUX@ wh¡te L 16121 1300 1200 811B
16 13 720 x 26 41 MAXIIUX@ INTERNA@ L16141
25 Natural L 16125
1200 1100 75
800
w
59950
DESIGN NEWINSTALLATION
ILLUMINANCEroo Low
OWN26 MM DIAINSTALLATION
26 MM OIA
ILLUMINANCÉ 26 MM OIA
8ro65WSTARTENCIFCUIT
38 MM OIALAMPS
AGE OF¡NSfALLÂIION
1 TO 9 YEAFS38 MM OIAINSTALLATION
75 TO 125 WSTARIERLESS
CIBCUIT AGE OFINSIALLATION
1O YEARS OROLDEF
CONSIOER NEW
INSTALLATIQN
11 MAXILUX@ Daylight l- 18/11 1300 1200 72 c
W
21 MAXILUX@ White L 18121 1450 1350 81 1B31 MAXILUXG'Warm White L 18/31
18
20
20
600 x 26 41 MAXILUX@ INTÊRNA@ L18141
20 Cool White L 18120
13ü) 1200 72
1 150 1050 64
23 White L 18123 1200 1100 61
30 Warm White L 1 8/30 31150 1050 64
20 Cool White L 20120 2600 x 38
30
MOST ECONOMICAL
TYPE SELECTOR
23 White L 20123
11 MAXIIUX@ Dayl¡sht L 30/11
1225 1 1 00 61
2100 702300
3
3
21 MAXILUX@ White L30l2',l 2400 2200 80
c
W1B
9(X) x 26 41 MAXILUX@ INTERNAG' L 30/41
23 White L 30123
2300 2100 70
2400 21 50 80
tBE{ tT rs Mosr €cqoMlcaL fo u8€:
24
Standard Lamps
First choice lamps are printed in bold letters
Nominal
d¡mensions:
length x
diameter
mm
970 x 26
Luminous flux ctE
colour
render¡ng
gfoup
(1)
1B
ctE
colour
appeafance
gfoup
(ÐLamp
watlage
36
L amp
reference
lnit¡¿l
3200 2950
L¡ghling
deslgn
lm
Luminous
eflicacy
Colour
21 MAXTLUX@ White L3612't-1
41 MAXILUX@ INTERNA L 36/41-1 3100 2850 86
11 MAXILUX@ Daylight L 36/11 3250 3000 90
21 MAXILUX@ White L 36/21 3450 3200 9631 MAxllUX@ Warm White L 36/31
W1200 X 26 41 MAXILUX@ INTERNA@ L 36/41
20 Cool White L 36/20
3250 3000
40 3000 2150
23 White L 36/23 3050 2800 85
30 Warm White
21 MAXILU White
L 36/30
L38121
3000 2l5a
38 1050 x 2631 MAXILUX@ Warm White L 38/31
20 Cool White L 40120
3200 2950 84
3000 2150
1B
40 1200 x 3823 White L 40123
11 MAXIIUX@ Daylisht L 58/11
3050 2800
5200 4800
21 MAXILUX@Wh¡te L 58121 5400 5000 93 1B31 MAXILUX@ Warm White L 58/31
58 65 1500 x 26 41 MAXILUX@ INTERNA@ t 58/41
20 Cool White L 58/20
5200 4800
4800 4400
23 White L 58123 5000 45003
30 Warm White L 58/304800
445020 Cool White L 65-80/20
80
-
ti5
80
5750 5200 1265-80 1500 x 38
51 00 4750 1823 White L 65-80/23
5200 l25750
1ç 5450 1720 Cool White L 75-85120
85 6250 5800 1475-85 1800 x 38
15 6050 5750 81L 15-85123
B5 23 White 6500 6250 11
100 L 1 00/23 8500 8000 85
2400 x 38 20 Cool White L 125120 9000 8500 t2125
23 White L 125123 9500 8900
o
Dimensions I and d are l¡sted on page 31.
MAXILUX and 26 mm diameter lamps must be operated on switch start or OUICKTRONIC (see pages 32-33)c ircu it s.
Some lamps may be subject to minimum ordering quantities.
(1) Colour rendering groups:1A (R" > 90) Wherever accurate colour matching is required, e.g. colour printing inspection1 B (80 < R" < 90) Wherever accurate colour judgements are necessary and/or good colour rendering is
required for reasons of appearance, e.g. shops and other commercial premises2 (60 < Ra < 80) Wherever moderate colour rendering is required3 (40 < Rô < 60) Wherever colour rendering is of little significance but marked dislortion of colour is
unacceptabl e
4 (20 < R" < 40) Wherever colour rendering ¡s of no ¡mportance at all and marked d¡stortion of colour is
accepta ble.(2) Correlðted colour temperatures:
w (ccT ç 3300 K) warmI (3300 K < CCT < 5300 K) lntermediateC (5300 K < CCT) Cold
25
U-LampsCircular Lamps
Nom dimensions Luminous flux ctE
Colour
rendering
gfoup
(1)
clE
Colour
appeaf¿nce
group
(2)Lamp
wattaae
Diam.
(d)
mm
Lenglh
(t)
mm
Lamp
¡eference
Lighting Luminous
lnitial design eficacy
lm lm lmiw
U-lamps (q)
40
Coloul
21 MAXILUXo White L 40/21 UK 3000 2750 75
25 Natural
21 MAXILUX@ White t 65/21 UK 4500 4150 69
25 Natural Amalgam L 65/25 UKln 3500 3200 54
L 40/25 UK 2400 2200 60570 38 1B
ô5
U-Lamps
Distance between tube axes : 92 mm
Circular lamps
32 300 (3) 30 Warm White t 32130 c 2000 1 B00 62
30 Warm White
21 MAXIIUXù White L 40121 C 3000 2750 75 1 B
30 Warm White L 60/30 C 3800 3400 63
L 40/30 C 2800 2500 1040
60
33400 (3)
3
D
(1) Colour rendering groups:
1A (R. > 90) Wherever accurate colour matching is required. e.g. colour printing ¡nspection1 B (80 < R., < 90) Wherever accurate colour judgements are necessary and/or good colour rendering is
required for reasons of appearance. e.g. shops and other commercial premises
2 (ô0 < R, < 80) Wherever moderate colour rendering is required
3 (40 < R, < 60) Wherever colour rendering js of little srgnilicance but marked d¡stortion of colour is
unaccepta bl e
4 (20 < R" < 40) Wherever colour rendering is of no importance at all and marked distortion of colour is
accept able.(2) Correlated colour temperatures:
W (CCT ç 3300 K) WarmI (3300 K < CCT < 5300 K) lntermediateC (5300 K < CCT) Cold
(3) Diameter (D)(4) See "Selection ol Ballasts and Starters". page 34.
Circular
10
Special Types
Nomrnal
drmensrons
lenglh (l) x
drameler (d)
mm
lnrt ral Lrghtrng
destgn
lumen
lm
clEcolorr
rendelngg¡oup
crE
colour
appearanc€
gfoup
Lamp
walì¿ge
luminous Lumrnous
eff¡cacyLamp
reference
12 DE LUXE DaylightApplications: Graphic arts, colour matching etc. 5400 K Ru: 9g
x 16
t18112 18 600 x 26 1000 850 561A C
36X
t36112 1200 x 26 23b0 2050 65
L'Bl12 5B 1500 x 26 3750 32 50
22 MAXILUX DE LUXE WhiteApplications: Hospitals, museums etc. 3800 K Ru : 96
136122 1200 x 26 2350 2050,]A
L58122 1500 x 26 32bU
32 MAXILUX DE LUXE Warm WhiteApplicalions: Textile industry etc. 3000 K Ru : 93
L8132 300 x 16
L13/32 13 525 x 16 b6u b90 52
115132 15 450 x 26 ti50 565 43
t16132 16 120 x 26 850 750,IA
t18132 18 600 x 26 1 000 8b0 56
L30132 30 900 x 26 I 600 1 400 53
136132 JO 1200 x 26 23b0 2050 ôb
158/32 '1500 x 26 3750 32 50
76 DE LUXE NATURAApplications: Food display etc. 3700 K Ru : gg
L r 5/76
L18lt6 18 600 x 26
L30116 30 999 x 26 1 300 1150 43
136/76-1ì...._LJb/ /b
36970 x 26 1 ôb0 1 500 46 1B
1200 x 26 1800 1 600 50
158/76 1500 x 26 2880
77 FLUORAApplications: Plant growth, aquaria etc. Luminous fluxes. colour rendering group andcolour appearance group are not significant because of the spec¡al application of thislamp type
118111 600 x 26 300 19
130111 30 900 x 26 Íì00 550 20 3
L36l / / 36 1200 x 26 850 750 24
L58l7l 1500 x 26
Fluorescent Iamps for explosion-proof fittings single pinFluorescenl lamps with Fa ô at each end.
L20l25X600 x 38
L4AlzOX 40 1200 x 382500 tt5\) bt
L40l25X 1 800 1 620 4b 'tts
165/20X 1500 x 38 4800 4320
Fluorescent lamps w¡th alum¡nium reflector foil for dimming c¡rcuitsln order to achieve good ¡gnit¡on and control qualities, the reflector foil should beearthed or. if recommended by the manufacturer of the ballast, connected to a specialauxiliary ignitor. Rated pre-heat voltage is 6.5 volt for L401.. DS and L65/.. DS
MAXITUX
140/31 DS1200 x 38 3000
165/3i DS65 1500 x 38 5000 4ô00
Reflector forl
At the present some of these lamps are not stock items and subjecÌ to minimum ordering quantities
1B
27
Technical lnformation
Switch start operat¡onFig.3
Series pair with ballastWOTAN DULUX" S:5 W.7 W,9 W
Single lamp starter St 111 or DEOS"
sÎ .1 71
WOTAN DULUX" L: 1 B W. 24 W.
36W
Single lamp with ballast
WOTAN DULUX" D: 10 W. 13 W,
18W,26WWOTAN DULUX' S:5 W.7 W
9W, 11W
Fis.5
Sìngle lamp wìth Plug ballast
WOTAN DULUX' D: 10 W. 13 W
WOTAN DULUX" S: 5 W,7 W,9 W.
Fig 6
Fig. 1 tig.2 Fis.4
Sr
Fis IFtg.7
Series pair on 240 V onlY wilhstarter St 151
WOTAN DULUX" L: 1B W
D.V : ballast
F : four Pìn lamP holder
H : cathode heating transformer
K : PFC caPacitor (ìf required)
K1 : series caPacitorK2 : caPacitor
Srngle lamP
Kr : Rl suPPression caPacitor 10
nF
L - lampNL : neutral, phase
St : slarler
Electronic HF oPeration
Fig.9OUICKTRONIC DE LUXE for use
with one MAXILUX" lamP
Starterless oPeration
Fìg 11
Ou i ckst art
Series pair for two lamPS 4 W. 6 W,
I W. 15 W, 18 W, 20 W and 22 W on
24OV - only with starter St 151
St1 : starter (excessive ignitiontimes esPeciallY at lowvoltage can be shortened bY
rotating one of the twoslarters 1 80')
A
Lea d-l ag
UN : suPPlY voltageZ : starting aid
Fio 10oÚtcK tRoNlc Dt LUXE for use
wìth two MAXILUX" lamps
Fig.12Semi-resonant
WOTAN's parent company introduced the world's first fluorescent lamp to the publrc at the Paris World Fair in 1936'
Lamp circuitsThe table.,,Selection of Ballasts and starters", on page 34, shows the ballasts and starter types for the various
fluorescent lamps. Other types must not be used.
The ballast must be wired to the phase
Energy conservat¡onWith escalating energy costs it becomes more and more important to save energy. This can be achìeved by using
starter circuits. they absorb the least power. Starterless semi-resonant circuits absorb about 5% and quìckstart
circuìts about lO% more energy. lf the convenience of a starterless circu¡t is required. DEoS@ St'l 7i Electronic
lnstant Safety Starters can be used in the majority of cases'
Colour designationVarious colour designations are available, see page 30, and "spectral Power Distribution", page74
eg HF 4501
+le.g HF 450 2
28
Technical lnformation
LuminanceSimilar to stearin candles. e g L 5B Wl21 : 15 kcd/m2.
Luminous fluxDepends on colour designation, see pages 18 to 26. Up to 8 times higher than that of
a tungsten filament lamp of the same input power. Lumen Maintenance see page 29.
Burning positionU niversal
Generation of heat1O% of that of a standard incandescent lamp of the same luminous flux
Temperature characteristicsMaximum luminous flux at an ambient of about 20'C. The luminous flux of standardfluorescent lamps decreases at higher and lower temperatures
Switch-start circuits are better than quickstart in temperatures below 5'C. lf
starterless operation is specified SRS circuits should be used, WOTAN DEOS@ St'1 71
starters operate from 1B-30W: *5 to +80"C,32-65W: -20 to +80'C. They assure
fast starting times and prevenl premature failure of cathodes at low temperatures.
For external ambients below -5'C the runnino-up time can be shortened by
enclosing both ends of the lamp. For ambients down to -'1 0'C the whole lamp should
be enclosed. For ambients below -10'C a double sleeve will enable the tube to run
up to about normal efficiency in the mrnimum of time.
Lamp lifeLamp life depends very much on how often the lamp is switched on and off. as is the
case with all discharge lamps. Rated lives are listed on page 31 for a switching cycle
of 3 hours. The Mortality curve for this switching cycle is shown in the margin.
Approximate lamp lives at other switching cycles compared with rated life are about:
lnterdependence of luminousflux and ambient luminairetemperature of free burning
L 36 W/.. and L 58 W/..
Lumen Maintenance L 18 to 65 W26 and 38mm dia.
o 25oo Sooo 75oo loooo l2mo
Mortal¡ty L 18 to 65 W26 and 38mm dia.
prox. lamp life
th
Switching cycle
Continuous operation Above 1 50%
24h 150%
8h 125o/o
3h 100%
65%
45 min 45%
5 min 20%
Vibrations and resistance to shock
Similar to rough service incandescent lamps.
Voltage characterist¡csLamp life and luminous flux of fluorescent lamps depend less on the supply voltage
than those of incandescent.
Ballastln general fluorescent lamps are operAted on 240 V with a ballast. Because the supply
voltage influences the lamp operation and life considerably, a voltage tolerance of
max. +10% must be maintained. Select correct ballast for each wattage and supply
votage according to table "selection of Ballasts and Starters". page 34. Some lamps
can also be operated in series pair operation on 240V or one lamp on 120V.
Power factorFluorescent lamps without capacitors ltave a power factor of about 0.5. An improved
power factor of up to about 1 can be obtained when using a power factor correction
capacitor, see "Technical Lamp Data". page 31. Group power factor correctlon is also
possible. ln lead-lag circuits the power factor remains practically l without correction
StarterTo ignite a fluorescent lamp a starter is required. unless a starterless circuit is used,
see "selection of Ballasts and Starter", page 34
¿
5000 7bm 10000 lzm
Lumen Ma¡ntenanceand Mortality curves
are shown for a 3 hourswitching cycle.
-<12 //47. æ
\A
29
Technical Information
Colour rendering and colour appearance
CIE Colour Renderrng Groups
crE
Colour
Appearance
Groups
ColdAbove 5300 K
lntêrmed¡ate3300 ro 5300 K
WarmBelow 3300 K
(Very Good)
1A
(R., = 90 to 100)
12
MAXILUXDL Daylight
r.-5400KR"=984 = 65 lm/W
(colour matching)
22
MAXILUXDL White
r,=3800KR,,=96n = 65 lm/W
(museums, hospitals)
32
MAXITUXDL Warm White
r,,=3000KR,=934 = 65 lm/W
(text i I es)
1B
(R, = B0 to 89)
2
(Good)
(R" = 60 to 79)
20
Cool White
T"-4000KR.=67ry - 83 lm/W
3
(Acceplable)
(8. = 40 to 59)
23
While
T,,=3500KR"=584 = Bb lm/W
30
Warm White
r"=3000KR,=544 = 83 lm/W
FLUORA
n = 24lmlVt!(aquaria)
11
MAXITUXDaylight
T.-6300KR.=85n = 90 lm/W
21
MAXILUXWh¡te
T,,=4000KR,:854 - 96 lm/W
25
Natural
T.-4000KR"=854 = 69 lm/W
76
DL NATURAT,:37OOKR,=BO
4 = 50 lm/W(food display)
31
MAXILUXWarm White
T.=3C00KR,=854 = 96 lm/W
41
MAXILUXINTERNA
r,=2100KR,:854 - 90 lm/W
(similar to incandescenl)
Lamp Caps and HoldersFluorescent LampsTubular Fluorescent Lamps for General Lighting ServiceLamp Caps and Holders
77
Luminous efficacy based on 36 W
Some colours may be subject to minimum Ordering quant¡ties
Cathode sh¡elds
Cathode shields are ¡ncluded in high loading lamps. These shields trap evaporationfrom the cathodes during life, preventing black deposits at the lamp ends. Cathodeshields also reduce flicker.
All L 65-80, L 75-85 and L 125 standard and all wattages of N/AXILUX@,26 mmdiameter, U and circular lamps contain cathode shields.
FlickerExtremely low flicker, max. 0 2%
Stroboscopic effectslf stroboscopic effects from rotating parts are expected to cause problems use lead-lag switch start circuit, see "Lamp Circuits", page 28.
StandardsWOTAN Fluorescent Lamps comply with the following lnternational and BritishStandards. where applicable:
IEC 61IEC 81BS 1 853BS 5101
30
Technical Lamp Data
[4ax
length
base
f¿ce to
base face
(t)
mm
Max
l¿mp
d¡a.
(d)
mm
Lamp Lanp
l\y'ax
preheal
voltage
(st¿rterless
operatron)
Approx.
PFC
c¿p¿citor
(4)
¡F
B¿ted
lÌle
(3)
hBase
Approx circurt
power inpul
Swltch starl Stôrlerless
WW10WOTAN DUTUX S 5 82 (5)
voltage cu(enl
40 0.1 80
Lamp
reference
WOTANDUIUXST 112(5) 45 0.1 75 11
WoTAN DULUX S I " i 44 (5) 21 x 12 60 0.i 70 G23
G24d-1
G24d-2
13
WOTANDULUXSIl 213(5) 90 0.1 55t5 s000
WOTAN DULUX D i0 95 (5)
WOTAN DULUX D 13 130 (5)
WOTAN DULUX D 26 170 (5)
WOTAN DULUX L 18 220 (5)
WOTAN DULUX L 36 410 (5)
L4 136
61 0.1 90
1 00 0.1 65 11
W0TAN DULUX D 18 150 (5) 34 x 34 105 0220 24
110 0 315 G24d-3 3.2 34
60 0 36s 4.5
65 2G 11 36 35
4.5 46
10
12G5
14
30
WOTAN DULUX L 24 315 (5) 38 x 18 91 0.340 (6) 7500
5000
1 10 0.425
29 0 t7
L6 212 42 0.1 616
L8 288 57 0 r45
110 410 26 68 0.11 G 13
L 13 511 tb 95 0.1 65 5G 19
L 15 438 53 033 65 4.5
25
25
21
30
116 120 95 0.20
93
6000
7500
5000
7500
26L 18 56 30
590 0.37120 3B 5l 32
40
46
30
426.5
130 895 96 0.3ô5 4
136 1 200 26 104
108 043138 104150
140 1200 103 6.5 553B
L 4OK 590 41 0.88 11 58
158 tô 71
L 65-80
ar65W
¿t80w
110 0.67 5.56.5 1A 85
1 500 38 G 13
087 I 93
170 26 128 0.1 80
L 75-85
at75W
AtBSW
1764130 067 5 81
6.5120 080 6 96 103
L 100i79 101 1.0 10 125
L 1 00/23 125 0.96 111t3 t5 38 65 1.2
L 125 l48 094 138 154
L20U 310 51 0.37 2545
L40UK 103 043 49 553ô
L65UK 570 1090 084 B1L 65 UKln
L32C 311 (1) B1 045 43
L40C 32 (2\ 103 0.43 G 10q 4.5 49
L60C41 3 (1)
91 0.75
(1) Outs¡de d¡ameter (D). page 26(2) Tube diameter (d), page 26(3) Switching cycle 3 hours. see "Lamp Life", page 29(4) For single lamps or series pair switch start as shown on page 28, cos d : 0.9 at 50 Hz(5) Base plate to top(6) Depending on circuitDimensions d, D and I are illustrated on pages 24 and 26.
71
85
5000
31
Electronic H igh-fr.equency Bal lastOUICKTRONIC@ DE LUXE
OUICKTRONIC@ DE LUXE !
increases the luminous efficacy of MAXILUX@ fluorescent lamps
WOTAN high-frequency ballasts OUICKTRONIC@ DE LUXE are advanced electronic
systems for economical operation of fluorescent lamps'
Ballast losses are 62|/olower than those of conventional ballasts.
The power consumption eg of a MAXILUX@ L 58 W is reduced to only 50 w, and of a
MAXILUX@ 36 W or WOTAN DULUX@ L 36 W to onlv 32 W'
While the lamp wattage is reduced by 14% the luminous flux drops only 4%' At the
same time the small loss of the electronic HF ballast improves the circuit efficacy
signif icantly.
ExampleL5SWMAX|LUX@
Convenlional
Ballôst type Elecùonic Ht
Ballasl lrequency 30,000
Lamp wattage
Luminous efficacy
Circuit wattage
Circuit efficacy
lncrease in circuit efficacy 18lnlW : 24 o/"
The essential tasks of an electronic HF ballast are:
o maintaining the lamp current with the lowest possible ballast loss
o ign¡ting the lamp without flicker and instantly (<0.'1 s)
o cutting off the ballast automatically after lamp failure
o PF correction of the lighting installation
o ensuring its operation also in DC emergency installations
o better lumen maintenance than with conventional ballasts
Electronic HF ballasts replace conventional ballasts, starters, PFC and RF suppression
capacitors, their holders and wiring. They save space and make installation easier.
50
104qÃ
50
58
93
Hz
switchst¿rt
9476lm/W
Electronic H igh-frequency Bal lastsOUICKTRONIC@ DE LUXE
OUICKTRONIC(Ð DE LUXE
is a fully electronic high frequency ballast for fluorescent lamps.
Additional advantages for the user are:
¡ lightweight one-part ballast due to fully electronic filtero small dimensions¡ wrde voltage range: 1 98 to 255 V - l:¡ automatic control for constant illuminance¡ in emergency installations luminous flux is maintained when switching over to DC
as per VDE 0108 (lEC equrvalent tn preparation)I flickerfree operation without stroboscopic effecta no interference and absolute silence. Suitable for use in medicine, EDP. sound
recording etc.
¡ no hum because of fully electronic designa great convenience by automatic restart after lamp replacement
OUICKTRONIC@ DE LUXE for two N/AXILUX@ fluorescent lamps:
Ballast reference
for Ît/AXILUX€
for MAXILUXs
Supply voltage V
Ballast frequency kHz
Supply frequency Hz
Lamp wattage W
Length I mm
Width b mm
Height h mm
Weight g
HF 462-2 HF 450-2 HF 434-2 HF 432-2 HF 416-2
2xL10
1 x 170
2 x L5B
1x LbB
2 x 138
1 x 138
2xL36r)
HF 432-1
2 x L 18
1 x L 18
HF 41ô-1
OI.JICKTRONIC¿ DE I UXE
Supply voltage V 220.240
Ballast frequency kHz
Supply frequency Hz 0/50..60
Lamp w¿ttaoe W
Length I mm
Width b mm
Height h mm
We¡ght g
OUICKTRONIC@ DE LUXE for one MAXILUX@ fluorescent lamp
Ball¿sì reference HF 462-1 HF 450-1 HF 434-1
1 x L361)
220-240
0/50...60
i
i
')Also for WOTAN DULUXÊ L 36 W
Circuit diagrams on p. 28.
Selection of Ballasts and Starters
Slarlerles5 Qper¿tionSi¿rter oÊerôtlon
Lamp
reference Bâlìôst
WOTAN DUTUX S 5
WOTAN DUTUX S 7Ã/TioiilWSS builtinwoTANDULUXS9 rtttrt
WOTANDULUXSll
WOTAN DULUX D 10 13 W SS
WOTAN DULUX D 13 built-in (2)
WOTAN DULUX D 18 W DULUX 18 SS
WOTAN DULUX D 26
WOTAN DULUX L 18 20 w ssWOTAN DUTUX L 24
Starter
Two lamps in
series at 240 V or
One lamp at 240 V one lamp at 1 20 V
bultr,in
OUICKTRONIC
electron¡c HF
Conventional
bôllast
Startelst 111sr 151st 196
DEOS B StarterSr 171
St 151 HF 516 (1)
st 17'l,St 111 HF 522 (1)
HF 532 (1 ), HF 432WOTAN DULUX L 3ô 40 W SS
4
4/6/8/W SS st 1516
10 lOWSS sr 111't3 13WSS
20WSS st 15115
16 13WSSHF 416
18Sr 151 20WOS
20 20WSS
zo l..u30WOS
30 30WSSsr l71.sr111aa
t1t 432.lb
HF 43838 40WSS
4040WOS+SRS
40 W SRS
65 W SRS
40 /79 K one lamp 2 x 20 W SS parallel
two lamps series Pair B0 W SS Sr '151
40/ uK 40WSS40l.c
St171,St11l HF 4505B
60 65WSS
65-80 at 65 W
at80W SOWSS sr 196
65 /. UKln 65 W/UK SS st 1'l 1
HF 46210
75 W SRS75-85 at 75 W
at85W
75WSSSr 196
l\¡ost WOTAN starters are approved by
Brltish StandardsCebec (Belgium)Demko (Denmark)Kema (Netherlands)
For detaiìs conract WOTAN Lamps Limited.
85 W SRSBSWSS
100 1OO W SS
125 l 125 W SS
NemkoSemko
125W0S
(Norway)(Sweden) or
11ì ln oreoaratton OS : Ouickstart SRS.: Semi-resonant start
iií Ë;üli;';;;r¡on woiÃru oÚîÚx Ìt¡È for use wìrhour inresrar srafrer available
BallastsBallasts are available lrom electrical wholesalers and should correspond with IEC Publ 82 and BS 2B1 B
StartersSr 111Sr 151DEOS@ St 1 71st 196 VDE (Germany)
WOTAN
st111
@ì)(ÐOaÐ
@rm
I
WOTAN
DEOS St -I71
18...65W
óòooo@@
StandardsWOTAN fluorescent starters comply wirh the following rnternational and British standards, where applicable""ieiläz'iîrjìããt. iòiiror'i.i trräiä{.ärì lirps "
BS 2B1B Ballasts for tubular fluorescent lamps
iÈõ îbisì;;úr loiìrurlriiruor.ri.nf tu.pt BS 3772 Starters for fluorescent lamps
BS 571 7 Transistorized ballasts for lubular lluorescent.lamps
[f-C ¿¡A fraitittoiized ballasts for tubular fluorescent lamps
HOI-T250-400
POWER STAR HOIMetal Halide LampsBenefits and Operation
WOTAN POWER STAR are an important improvement on mercury lamps. Rare earth
metals are added to the discharge gas resulting in:
Optimum economy and low operating cost, the lamps give more lumen per watt.
WOTAN uses rare earths additives (HOl/D, HOI/NDL and HOI/WDL) for
installations where accurate colour rendering is required, and sodium iodides (HOl/N)
for ìndustrial and floodlighting installations where high light output is considered more
rmportant than accurate colour rendering. One of the four types is always suitable
where low-cost, high quality lighting is required.
Large range of types and wattages available.
HOI-E
ln coated ellìptical bulbs for uniform surface luminance
HOI-T
ln clear tubular bulbs for luminaires with a precise light distribution
HOI-TS
ln double based clear tubular bulbs for floodlìghtsThis type is also suitable for instant restart of the hot lamp when used with a high
voltage ignitor.
HOI-R
Reflector lamps.
The dimensions correspond with those of WOTAN HOL mercury and NAV-E VIALOX@
high pressure sodium lamps of the same wattage. Existing luminaires can be used for
all three lamp types thus tncreasing flexibility and reducing stock keeping. Some are
also electrrcally interchangeable with NAV lamps (ballast and ignitor controlling both
lamp types available).Over a century ago Sheffield United Football Club asked WOTAN's parent company
to build the World's first electrical football floodlighting installation.20000 awed
spectators watched the first match at Bramall Lane on 14th October 1878. Today
WOTAN are still leading and illuminate such installations as the stadia for the Olympic
Games, the Football World Cup and over 80 important stadia in the UK. But today we
use WOTAN POWER SIAR
Metal halide lamps do not contain starting electrodes, because the halide additives
require a high ignition voltage An external ignitor is required (except HOI-T 2000)
lmmediately after switching the lamps on, a discharge starts between the electrodes
in the argon starting gas. The temperature in the discharge tube rises to a few
hundred degrees and the pressure increases to several atmospheres. The mercury and
metal halide vapours become active. Now the proper discharge starts and forms a
continuous radiation in all wavelengths of the visible spectrumLuminous efficacy varies between 67 and 95 lumen per watt, depending on
wattage. woTAN uses rare earths icídides for all PowER sTAR HOI/D, NDL and WDL
lamps. Rare earths rodides make it possible to attain a much more uniform spectral
power distribution with a much better colour quality and colour rendering than sodium
iodide (HOl/N).
WOTAN HOI POWER STAR Metal Halide Lamps consist of :
1. Discharge tube, normally made of quartz, filled with argon starting and mercury
discharge gases with several special metal halide additives
2. lvain electrodes, made of tungsten, at each end of the discharge tube contain
emissive material.
3. Bulb, either coated elliPtical,in a clear quartz tube is alsophosphor coating does not s
mainly a diffuser ensuring eq
clear tubular. or reflectorized A double-based versron
available for inslant restart of the hot lamp The
erve the same purpose as that of mercury lamps lt ìs
ual brightness over the whole bulb surface'
HOI E
HOI-T1 000-3500
HOr-TS250-400
HOI TS2000-3500
HOI-R
35
High lntensity Discharge LamPs
POWER STAR HOIMetal Halide LampsLamp Types
Lumrnous flux Dimensions
Lamp
lm
w¿ttage lnitial
¡
Lighting
design
lm
Light
centre
length
(a)
ñm
Max.
length
(t)
Dìa
(d)
mm
clE clE
Colou¡ Colour
Lumioous rendering appearance
efic¿cy group group
Base lm/W (4) (5)Lamp relerence
õ
POWER STAR HOI
POWER STAR metal halide lamps excel with their hìgh luminous efficacy and excellentcolour rendering qualilies. They are available in the colour appearancesDE LUXE Cold, DE LUXE lntermediate. lntermediate and DE LUXE Warm.
Appìications:
ln interior lighting, such as factories. stores, show windows, foyers. hotels, restaurants.
exhibition halls, offices. schools. sports halls and for plant growth.
ln outdoor lighting, such as floodlighting, represenlative streets, parks and lighting ofbuildings and monuments.
Compact POWER STAR@'HOI-T@ and HOI-TS (MBl)
WOTAN POWER STAR@ HOI@-T 35 W to 250 W are the smallest metal halide lamps in
the world. Their Iong life, high lumen package and low heat radiation make them ideal
for indoor lighting, stores. exhibitions where higher light quality is demanded, but also
for exacting light architecture in foyers. lobbies and malls.
The colours WDL (DE LUXE Warm) and NDL (DE LUXE lntermediate) are suitable for
use with HALO STAR tungsten-halogen.
Clear tubular bulb.lgnitor requ¡red.
HOI-T 35/WDL 62
HOI T 7O|WDL 84
d
39 2400 2000
15 5200 4250 25 56 G12 69 18 W
HOr T 150/WDL 150 12000 9850 80
13
TS double-based clear tubular bulb. Hot HOI-TS lamps can be instantly restarted whenusing a special high voltage ignitor.lgnitor required.
5500 4700
5000 42501B
HOI-TS 7OlNDL
HO]S ?O/WDL15 20 1142 (6) 5l R7s 61
15
I
W
HOr TS ]50/NDL lso 11250 9600 23 132 (ô) 60
HOi-TS 250/NDL 250 20000 1 7000 2s l 63 81 Fc2 B0
POWER STAR HOI-R (MBI-R)
Reflector bulb.lgnitor required.
tjrút¡cß.|
d
HO|-R 250/NDL 250 13500 (1) 11500 (1) 12s 180 E40 54 1A
.:0
Burn¡ng pos¡tion
¡;1 PermissibleØ Notpermissible
L
HOt -TS 7oiNDL HOIHor - Ts ToiwDL HolHOt - TS 15Oi NDL HOIHOr - TS 250/D HOIHOr -TS 250/NDL HOIHOt - E 4OO/DHHOr - T 400/DHHOr - TS 4O0/D
-T1000/D HOr-E4OO/DV-f 2ooolD! Hor - T 4o0/DV- TS 2qrc/D HOt - E 1000/N- T 3500/D- TS 35æ/D
35/WDL70/wDL1s0/wDL250/D (8)250/D (8)400/D40o/D2000/N
_T_T_T_E.T_E_T_T
HOtHOtHOtHOtHOrHOtHOtHOt
38
HOr - R 2sO/NDL
POWER STAR HOIMetal Halide LampsLamp Types
Luminous flux Dimensions
Lamp Lightingdesignlniti¿l
Dia.(d)mmlm
Lightlilax. cenlre
length length(l) (a)mm mm Base
CIE CIE
Colour ColourLuminous rende¡inq appearanceefficacy g¡oup grouplm/W (4) (5)
wôll¿oeLamp relerence W
"lm
mt
rl
POWER STAR HO|-T (MBt)Clear tubular bulb.lgnitor required.
H0l
25600
Hor r 400/DV (9) 28000 22500
1AHor-r 400/D (7) 390 32000 82
46 285 115 10E40 78 18 C
ñur- r tuuu/u I 0u0 SOUUU 60000 tît 340 tzt) 80
n.a. 100 ðb
d
1
Clear tubular bulb.No ignitor required.
20001A
H0r-ï 2000/N 95 'I
POWER STAR HOI-TS (MB|-L)TS double-based clear tubular bulb. Hot HOI-TS lamps can be inslântly restarted when using a special highvoltage ignitor.lgnitor required.
HOI TS 25OiD 81 tb
HOI TS 4OO/D
B5E40:öo
100 430 265 E40
250 1 9000 1 5500 25 1 63
360 25000 20000 31 206 103tu¿
691AHOr-Ts 2000/D 2000 1 70000 1 20000 C100 490 265
6 Ho|,TS 3500/D 3500 300000 n.a.
Operate HOI TS 70 to 400 W only in luminaires with a boro silicate protect¡ve cover When used with photo-sensitive materials, aUV filter is recommended.It is recommended that the exhaust tip of HOI TS 70 to 1 50 W lamps face the reflector, where applicable.
POWER STAR HO|-E (MB|-F)Coated elliptical bulb.lgnrtor required.
HO|,E 250 WD 250 17000 14000 90 226 68 I
HOr E 400/D (7) 390 30000 2400\) 11 '|A
HO|-E 400/DH (9)
Fõ'r-ET007DvlÐ-24000 1 9500 120 290 E40 61 C
36026000 21 000 ---1- 18
H0t-E 1000/N 1 000 80000 n0000 'ì 6b 380
d
Codes
...tD
.../DH
.tDv
: DE LUXE Cold. Colour renderino group 1A: DE LUXE Cold, horizontal burniñ{position. Colourrendering group 1 B: Dt LUXI Cold. verlr.al burnrng posilion. Colourrendering oroup 1 B
/NDL : DE LUXE lntermediate. Colour render¡ng group 1 B
/N : lntermediate. Colour renderinq qroup 2
/WDL = DE LUXE Warm. Colour rendering group '1 B
(1) Luminous intensity distribution on page 47(2) ln horizontal burning positron 1 70.000 lm initial and 1 20.800 LDL(3) Preliminary data(4) Colour renderinq qroups:
1A (R., > 90) Wherever accur¿te colour matching is required. e.g. colour printing inspection1 B (80 < R. < 90) Wherever accurate colour judgements are necessary and/or good colour rendering is required for
reasons of ¿ppeär¿nce, e.g. shops and other commercial premises2 (60 < R, < 80) Wherever moderate colour rendering is required3 (40 < R" < 60) Wherever colour rendering is of little significance but marked distortion of colour is unacceptable4 (20 < R, < 40) Wherever colour rendering is of no importance at all and marked distortion of colour is acceptable.
(5) Correlaled colour temperdlures. ,
W (CCT < 3300 l) Warm| (3300 K < CCf < 5300 K) InlermedrareC (5300 K < CCT) ColdDistance between contactsOpt¡mum luminous flux with NAV 400 W ballastln base down burning position, non uniform colour appearance is possibleRun-down lype
(6)(7)(8)(e)
39
HOL DE LUXEHOL
HWL
HOLMercury LampsBenef its
HOL DE LUXE mercury lamps (DE LUXE MBF)
lVlercury fluorescent lamp with bettep colour rendering. particularly of humancomplexion.
ldeal for imprÒving existing MBF installations where the requirements are:Higher luminous fluxLow wattageLong lifeNatural rendering of human complexion
Coated elliptical or reflector bulbsReflector lamps have same dimensions as incandescent internally silvered reflector
lampsColour improved with specialyttrium vanadateLow flicker factorThe dimensions correspond with those of WOTAN HOI-E POWER STAR metal
halide and NAV E VIALOX@ high pressure sodium lamps of the same wattage. Existingluminaires can be used for all three lamp types. thus increasing flexibility and reducingstock keeping.
WOfAN introduced high intensity discharge lamps in 1931 and POWER STARS in1965. This proves that WOTAN was always at the forefront of high efficiency lampdevelopment.
HOL SUPER DE LUXE mercury lamps (SUPER DE LUXE MBF)Mercury fluorescent lamps with the colour appearance of incandescent lamps.
Pedestrian precinctsHotel lobbies
HOL mercury lamps (MBF)
Long lifeCoated elliptical bulbColour improved with standard yttrium vanadateLow flicker factor
HWL DE LUXE mercury tungsten blended lamps (DE LUXE MBTF)Mercury tungsten blended reflector lamp with better colour rendering. particularly ofhuman complexion.Reflector lamps are directly interchangeable wiTh incandescent internally silveredreflector or PAR 38 lamps. lf feasible use HOLR DE LUXE lamps with ballast becauseof their considerably higher efficacy.
HWL mercury tungsten blended lamps (MBTF)
Longer life than incandescent lamps. Particularly suited for temporary replacement ofGLS lamps where immediate capital investment is a problem and location access isdifficult
Coated elliptical bulb.A tungsten filament series connected to the discharge tube serving mainly as
current limiter but also as light source. No need for a ballast, it can be operateddirectly on the power supply. lf feasible. use HOL DE LUXE lamps with ballastbecause of their considerably higher efficacy.
40
2
HOLMercury LampsOperation
When switching the lamp on, a discharge starts between the main and startingelectrodes. The argon starting gas ionizes and then initiates the arc between the mainelectrodes. Soon the temperature in the discharge tube rises to a few hundreddegrees and the pressure increases 10 about four atmospheres (400000 N/m2). Thenthe radiation in the invisible, long wave ultraviolet starts. Some light is also radiated in
the visible part of the spectrum. but none in the red. The phosphor coating inside thebulb transforms the ultraviolet radiation into visible light, increases the luminousefficacy and improves colour appearance (red). Luminous efficacy of mercury lampsvaries between 32 and 60 lumen per watt, depending on the lamp wattage andphosphor.
WOTAN HOL mercury lamps consist of ;
1. Discharge tube, normally made of quartz glass, filled with argon starting andmercury discharge gases.
2. Main electrodes, made of tungsten, at each end of the discharge tube containingemissive material.
3. Starting electrode, made of molybdenum, adjacent to the main electrode.
4. High-ohm resistor connecting main and starting electrode, no bimetal switch,resulting in higher reliability.
5. Elliptical bulb provides uniform operating temperature and light distribution. Thebulb is coated with phosphor containing yttrium vanadate, the HOL DE LUXE andSUPER DE LUXE lamps in addition conta¡n other high-quality phosphors.
\
/3
\
{
41
HOL DE LUXEHOLMercury LampsLamp Types
(d)
mm
L¡gbting
design
lm
Lamp
Luminous flux Dimensions crE
Colout
rendering
group
(3)
clE
Colour
appearance
gfoup
(4)
Diameter ¡i1ax. length
(t)
mm
Luminous
etlicacywatlage lnilìal
Lamp relerence
DE LUXE HOL mercury lamps
High pressure mercury lamps with yttrium vanadate DE LUXE phosphor. The pleasant,
warm colour appearance opens new fields of indoor applications for DE LUXE HOL
lamps. They follow the trend of point light sources, e.g. in display and effect lighting in
downlighters, wallwashers and for outdoor lighting in pedestrian areas and
representat¡ve streets.
HOL DE LUXE (DE LUXE MBF)
Coated elliptical bulb.Higher luminous flux.Better colour rendering. especially of human complexion.
Base
HOt 50 DE LUXE 50 2000 1 900 55 1 30 40
F1
HOL 80 DE LUXE 80 4000 3800 10 1 56 E21 50
HOL 125 DE LUXE 125 6500 6200 75 110
HOL 250 DE LUXE 250 1 4000 1 3300 90 226 56E40
HOL 4OO DE LUXE
HOLR DE LUXE (DE LUXE MBFR)
Reflector bulb.
HOLR 8O DE LUXE 80 3000 (1) 2850 (1)
400 24000 22800 120 290 ô0
38125 1 68 E21 3
HOLR 125 DE LUXE 125 5000 (1) 4750 (1) 40
HOLR DE LUXE is also used in the FLORA Set for plant display and aquaria.
HOL mercury lamps
High pressure mercury lamps with yttrium vanadate phosphor. For general use in road
and factory lighting.
HOL (MBF)
Coated elliptical bulb.
HOL 50 50 1 800 1 700 55 1 30 821 36
HOL BO 80 3800 3600 70 156 48E27 (2)
-
H0L 1 25 125 6300 6000 15 110
HoL 250 250 1 3000 1 2300 90 226 Ét 3
HOL 400 400 22000 21000 120 290 55E40
HOL 700 700 40000 38000 1 40 330 51
HOL 1 000 1 000 58000 55000 1 65 390 58
Burn¡ng pos¡tion
D permissible
(3 not permiss¡ble
42
HOL SUPER DE LUXE
HOL DE LUXE
HOLB SUPER DE LUXE
HOLR DE LUXE
HOL
HWLR DE LUXE
HWL
HOL SUPER DE LUXEHWLMercury LampsLamp Types
Lamp
wallage
Lighting
design
lm
Luminous flux Dimensrons crE
Colour
rendering
gfoup
(4)
clE
Colour
appearance
gfoup
i5)lm
lenglhNtaxDiameter
(t)
mm
(d)
mm
Luminous
efficacylnilial
Lamp relerence B¿se
HOL SUPER DE LUXE (SUPER DE LUXE MBF)
Decorative elliptical bulb with golden filter layer for interior and outdoor lightinglncandescent like colour appearance (3000 K) with the advantages of HOL mercurylamps.
HOL SUPER DE LUXE are used in pedestrian precincts, gardens, parks, foyers,shopping malls and other public areas.
Coated elliptical bulb.
HOL 50 SUPER DE LUXE 50 1 600 1 5OO 55
HOL 80 SUPER DE LUXE 80 34OO 32OO 10
HOL 1 25 SUPER DE LUXE 125 57OO 5350 75
130 32
1 56 Ezl 42
170 46
HOLB SUPER DE LUXE (SUPER DE LUXE MBFG)Decorative globe bulb with golden filter layer for interior and outdoor lighting. Lowluminance and splash resistant due to its large bulb surface. Pleasant incandescentlike colour appearance (2900 K). Long service life.
HOL-B SUPER DE LUXE are particularly suited for foyers, malls. pedestrian precincts,parks, gardens and other lighting schemes requiring long service life.
Coated globe bulb.
HOLB 50 SUPER DE LUXE 50 1 600 ,1
5OO126 190
32Ea1
3B2
HWL mercury tungsten blended lamps (MBTF)
With yttrium vanadate phosphor. Directly interchangeable with incandescent lamps.
Coated elliptical bulb.240 to 250 V, no ballast required.
HWL 160 245 V 1 60 31 00 2600 75 177 E27 (3) 1 9
HWLR DE LUXE (DE LUXE MBTFR)
Tungsten blended lamps with yttrium vanadate phosphorReflector bulb.240 to 250 V, no ballast required.
HWLR 1 60 DE LUXE 160 2500 (1) 2125 (1) 125 168 E21 16
(1) Luminous intensity distribut¡on on page 47(2) Also available w¡th base B 22 d-3(3) Also available with base B 22 d(4) Colour rendering groups:
1A (R, > 90) Wherever accurate colour matching is required, e.g. colour printing inspection1 B (80 < R, < 90) Wherever accurate colour judgemenls are necessary and/or good colour rendering is
required for reasons of appearance, e.g. shops and other commercial premises2 (60 < Ra < 80) Wherever moderate colour rendering is required3 (40 < Ra < ô0) Wherever colour rendering ¡s of little significance but marked distortion of colour is
unaccept abl e
4 (20 < Ra < 40) Wherever colour rendering is of no ¡mportance at all and marked distortion of colour isaccepta ble.
(5) Correlated colour tempefatures:W (CCT ( 3300 K) WarmI (3300 K < CCT < 5300 K) lntermediateC (5300 K < CCT) Cold
43
d
+d
Metal Halide and MercurY LamPsTechnical lnformation
P
K.S Z
Fig,2
Fis.3
F¡9.4
Fi9.5
F¡s.6
F¡s.1
Lamp circuitsAll discharge lamps must be connected to a current limiter. For mercury and metal
halide lamps in general a ballast is used. Connectron of a discharge lamp directly to
the power supply w¡thout current limiter will destroy the lamp Proper operatìon of
lamps can only be guaranteed if approved ballasts and ignitors are used operation of
damaged lamps, or lamps without outer bulbs, is dangerous and must be avoided.
HWL mercury tungsten blended lamps are an exception in which the discharge tube
is connected to a tungsten filament. This serves as current limiter and also radiates
lig ht.For proper operation of the lamp select correct ballast suitable for the lamp type'
wattage and supply voltage. See iist, "selection of Ballasts and lgnitors", page 57
lncorrect ballasts can leaã to improper colour appearance and a reduction in lamp lìfe'
HOI metal halide lamps also require an ignitor in addition to a ballast An exception
are the HOI-T 2000 W. which have built-in starting electrodes and therefore do not
require an external ignitor.iamp circuits suitãble for each lamp are listed under "Circuit Diagram" on pages 48
and 54.
Power factor correctionDischarge lamp circuits with a ballast have an inductive load and a power factor of
about 0.5 to 0.7. To improve the power factor a capacitor can be added, usually one
for each lamp. PFC capacitors must always be connected in parallel, see "Lamp
Circuits" above. Other connectiôns result in improper operation. lt is important to
select the capacitor value recommended by the lamp manufacturer. lncorrect
capacitor values can result in improper lamp operation
ñ/l.r"rry tungsten blended lamps HWL are an exception. They do not require a PFC
capacìtor, because their power factor is almost 1'
Lamp startHOL lamps take about 4 to 5 minutes before 90% of the maximum luminous flux are
reached. ln Hol lamps this takes about 2 to 3 minutes. ln HWL lamps the full flux is
reached instantly. the lamp then stabilìzes for normal operation. The diagram shows
the typical starting characteristic of a discharge lamp in inductive operation without
PFC correction.ln uncompensated circuits starting currents are 1-2 times higher than lamp currents'
Restart of hot lamPAll high pressure discharge lamps need a certain cooling time before they can be
restaÃed. except those ;hich are built for instant restart by means of a hìgh voltage
ìgnitor.Mercury and metal halide lamps require between 2 to 10 minutes to cool, depending
on luminaire design, before they are ready to restart. This is because the pressure in
the discharge tube must sink to a level where the discharge can recommence Metal
halide Iampi are also available in a TS version for instant restart. A high voltage ignitor
(25 to 6O kVp) can restart this lamp ¡nstantlv after extinction. Starting of cold lamps.
however. takes the same time as with standard ignitors'
N
P
N
P
N
Ury ::{:: X
SI
N
P
N
P
N
K+S:
B
DDK'
KI
Un
z
ZL
lLPLUL
Õ
*otioE!oE
: Fuse (lEC 127, BS
4265 T 6.3): Ballast: Tapped ballast: Capacitor for Power
factor correction: Capacitor for Power
factor correction andlamp startMake-and-breakswitch with relay
LampH¡gh voltage terminalNeutralP haseThree phase leadsOn-off switchLeakage fieldtransformer
: SuPPIY voltage :240 V a.c. (for 2OOO
W and 3500 W:415 V a.c.)
: lgnitor to be ¡nstallednear the lamP
: High voltage ignitorlead to centrecontact of lamp
: Lamp current (A): Lamp power (W): Lamp voltage (V): Luminous flux (lm)
Lomp Slart HOL
Lamp StartHOt 70-1O00/DNDL and WDL
LH
R,S.T :Schst1
Lamp StartHOI/N
Lamp StartHOr 2O0O-35O0/D
r80i I 80.
140
roo' 1
+it -
140 i
r20iì
i 00lI
80
60 t
,20i
2 3 min
/tZL
K,S
t
D=
aL,1
1ø
t ----lL
,/ø
44
Start¡ng Timô (min)
Metal Halide and Mercury LampsTechnical lnformation
Lamp Stan HWL
Voltage characteristicThe voltage characteristics of HOL and HOI lamps are somewhat different from eachother. The diagrams in the margin show the electrical and light data as a function ofthe supply voltage. The permissible short time supply voltage variations for stableoperation and long lamp life are as follows:
HOL lamps + 10o/o
HOI lamps + 5%
HWL lamps + 3%
lf the supply voltage of HOI lamps is for a longer time above or below the ratedvoltage a tapped ballast must be used. The permissible frequency variation is +2%.
lf occasional voltage variations in HWL installations are over 3%, HWL lamps shouldbe operated in vertical burning position only,Overrunning or underrunning the lamp will exceed the tolerance of arc temperatureand pressure and result in lamp damage.
Temperature characteristicsLamps ignite and burn normally at the rated supply voltage down to an ambienttemperature of -30'C. At lower temperatures than this is a higher starting voltage is
required.The ambient temperature has a negligible influence on the luminous flux. because
the temperature in the discharge tube is 600 to 1000"C.Maximum permissible base temperatures are:
HOl, HOL and HWL 250'C
Maximum permissible bulb temperature 350 to 550"C (HOl-TS 70: 500'C. HOI-TS150 and 250: ô50'C) depending on lamp wattage. Proper operation at the correcttemperatures in the luminaires can also be checked by measuring the correspondinglamp currents and voltages.
*o!
o':oõG 23
Sran¡ng Time (min)
Voltage Character¡stics HOL
100% r'to%
Vollage Character¡stics HOI
9
.¡
Lamp lifeThe lamp life depends on the way the lamp is operated. The following points areimportant:
Select correct crrcuit components for supply voltage lamp, type and wattage.Circuit must be wired correctly. use only components approved by WOTAN.Excessive switching shortens lamp life as is the case with all discharge lamps.
Variations in the supply voltage will cause anomalous operating conditions andshorten lamp life. This happens often while a building is under construction (heavyloads due to build¡ng machinery, welding machines etc.).Lamp quality is of course also of importance. WOTAN with its vast experience, its wellequipped research and development facilities and its modern manufacturing plantsguarantees high quality lamps. Most light sources. however, are automatically massproduced items. The lumen maintenance and mortality curves therefore indicateaverage values.
Service lifeRated Life is the optimum point in time for lamp replacement where the operatingcosts are at a minimum. Operating costs do by necessity include all factors such aselectricity and replacement labour cost, Iumen maintenance. mortality and lamp price.The indicated rated life is based on a switch-on/switch-off cycle of I hours (exceptHOI > 1000 W : 3 h).About 5% HOL,8% NAV or 10% HOI lamps will fail before therated life is reached (for HOI-TS 70 and 150 consult curves on page 4ô). The ratedlives are listed under "Technical Lamp Data", pages 48 and 54.For HOL and NAV roadway installations the most economical replacement cycle ìs8000 hours. because of the longer journeys involved and the higher maintenance costfor individual lamp replacement.Rated Average Life is normally given for a switching cycle of 'l 0 hours and a failurerate of 50%. lt can be 20000 hours or more, but obviously the annual operating costswould reach completely uneconomical levels and the resulting illuminance levelswould be much too low.
90 95 % 110
Voltage Characterist¡cs HWL
r05
O = Luminous flux (lm)P, = Lamp power (W)U. = Lamp voltage (V)lr = Lamp current (A)T. = Correlated colour
temperature (K)L = Rated life
PL
/-v-4'/
u
)':1'y'*
þ/\-
ta---
'2/l¡
\,-7
45
Metal Halide and Mercury LamPsTechnical lnformation
Luminous flux ¡
Luminous fluxes are listed in the tables on pages 38,39.42 and 43. Initial lumens are givenfor 100 hours. lighting design lumens for 2000 burning hours. Mean lumens during rated lifemay be higher than lighting design lumens.
The luminous flux varies with the burning position of the lamp. A vertically burning lampgives about 5 to 10% more light than one in horizontal burning position. The luminous fluxof lamps with universal burning position is given for vertical operation.
The luminous intensity distributions of reflector lamps are shown in the polar diagrams onpage 47.
Lumen maintenanceThe luminous flux of most lamps decreases during their rated life. The decrease is causedamong other things by electrode wear, blackening and ageing of the phosphor coating. Thefastest decrease in luminous flux occurs during the first 100 burning hours, afterwards itslows down Variations exist for the different wattages, the decrease in lower wattagelamps is slower than in higher wattages.
Burning positionThe permissible burning positions for the various Iamps are listed under "Lamp Types",pages 38 and 42.
Golour appearance and colour renderingBoth mercury and POWER STAR metal halide lamps have a white light colour. Theirspectral power distribution, however. differs considerably, see "Spectral PowerDistribution", page 75. This is also true for the light quality and therefore colour renderingwhich are quite different.
The light quality of HOL mercury lamps is not particularly good and this lamp type is notwell suited where good colour rendering is required.
DE LUXE HOL lamps are better, particularly where good colour rendering of the humanskin is desirable.
SUPER DE LUXE HOL lamps have the colour appearance of incandescent lamps.POWER STAR HQI metal halide lamps give a very much better light quality and colour
rendering. They are available in three colour appearances and are a very suitable l¡ghtsource where good colour rendering is required. In addition they give optimum seeingconditions for the human eye.
lf good uniformity in colour appearance is important use HOI/NDL or HOI/WDL, theirtolerãnce is +300 K The tolerance in colour temperature of HOI/D is +500 K.
**
*
tæLumen Maintenance HOL
3m m w 12m r5m
Mortality HOL
m
Mortal¡ty HOI 7O-150
!
Il
I
i
Lumen Maintenance HOI/D 250-400
n2m4m6m
Lumen Maintenance HOI/NDLand WDL
2m ææ
Lumen Maintenance HOI/N
2m0 3m 4m
Lumen Maintenance HWLlæ
801
60
4oo 1@ 2m 3m 4m 5m CIE Colour Benderino Groups
80
1A
R" = 9o to loo
HOUD
T. = 5200 ro 6000 K
R,=90to93
1B
R,=BotoBg
5
R" = 40t059(Acceplable)
HOL
T^ = 3550 to 4200 KR,=43to5o
HOLR DL
T" = 3400 to 3500 K
R,=56
R"=20t039
1
(Very 0ood) 2
R"=60t079(Good)
HOUN
T" = 4500 KR,=60
HWL
T" = 3600 K
R,=65
(Unusual)
NAVr,, = 2000 K
R,:20
ColdAbove 5300 K
lntermediate3300 to 5300 K
WarmBelow 3300 K
HOUNDL
T" : 4300 to 4500 KR,-85
HOUWDL
T" - 3000 KR.=80
r00 r0¡¡
Mortal¡ty Hol 250-400
m
æ
E
!æ
HWL DL
T" = 3200 KR.:71
HOL SDL HOL DL
I. - 2900 to 3000 K T,, = 3000 to 3200 K
R,=60 R,=50t057
NAV DL
T^ = 2200 KR,=65
2@
Mortality HWLtæ
]H Correlated colour temperatures for each lamp type are listed on page 48.Luminous efficacies can be found on pages 38, 39,42,43, 50 and 51.
46
3mLumen ma¡ntenance and mortal¡ty curves are shown for an I hour sw¡tching cycle
Beam Angle
Metal Halide and Mercury LampsTechnical lnformation
llluminance of HID reflector lampsMax. illuminance (lux) at a distance from the lamp ofLu mino us
lntens¡tyD¡str¡but¡on
H alfLamp
lefe¡ence
Beam
angle
120
1.5 m 2.5 m 3.5 m 4.5 m 6m
lntensity
B€añ Angle
lntensity
Luminous lntensity Distr¡but¡ons
HOL,R 1 25 W DE LUXE
HWL-RlodWDETuntr
Luminaire design
Luminaires for HOI 1000 to 3500 and -TS lamps should be designed with a pressure-free lamp support at the end opposite the lamp base in order to minimize the influenceof vibration.
Flicker
Very low flicker factor, HOL max. 2o/o, HAI max. 2.4o/o.
Standards
WOTAN Mercury and Metal Halide Lamps comply with thefollowing lnternational and British Standards. whereapplicable:
IEC 61 Lamp Caps and HoldersIEC 188 High Pressure Mercury Vapour LampsBS 3677 High Pressure Mercury Vapour LampsBS 5101 Lamp Caps and Holders
265
90
80
60
50
+
{
40
2000
4000
ô00û
8000
r0000
t000
r¡0û030
r0
HQI-R 250 W/NDL
t90
80
70
m
50
+
600
800
r200
30
I
I
01020
HOL-R 80 W DE LUXE
t0
r00
200
100
400
500
600
t
t90
80
ta
50
40
600
800
1@0
r200
B 90
80
70
60
50
40
30
20 e t0 2û
HWL-R 160 W DE LUXEHQL.R 125 W DE LUXE
I
250W
\
125
=
DE LUXEHWL-R
47
Metal Halide and MercurY LamPsTechnical Lamp Data
ignition
volìage
Time
lag
fuseApprox.
cofrected APProx
Lamp lamp starting
Approx
Bated PFC recom
Lltrefefence
Lamp
leference
Supply
voltage
Avg life
luminance (4)
kcd/m2 h
curent cutrent curlent Lamp
(3) (5) (3) voltage
AAAV
Normal
restarl
kVp
lnslant
reslôrt
Corel
colour
ìemp.
K
Approx
circurt
power
capacilor Circuit mended
(Ð diagram (3)
¡F (6) A
10045
H0tE 400iD (1)
t\4Bl-F HOrE 400/DV
HOIE 4OO/DH
H0tE 1Oocl/N
MBI,R HOIR 250/NDL
HOIT 35/WDL
¡¡¡ ¡71a¡¡ 2ao
H0lT 150/WIJL
H0tr 250/D
HO|T 40{J/D (1)
N4BI HOIT 4OO/DV
HQil 400/rJH
HorT 1000/D
9.s 6 0 14.0
3.0 1.5 4.2 1 00
05 03 0.1 90
1 UbU4500
2t5 -BodFi-
48 35000N^l 88 3000 50000
oossible
-
' 1 70 80000
275 5400 11000-7¡õ--- br00-- 8000-
7000
4 5 2.5 6.5 440 5000 1 30
11035
___- G
---5r6000 6---T
---T
-- 45
35
10
--6
35 20 50 385 5600 100
385 5900
120 3230
10 0.5 14
lflT-----f.s 95 35
3.0 1.5 4.2 1 00
4.5 2.5 6.5
3.5 2.0 50 120
9 5 6.0 14.0
310
--65¡0
0.3 b.5 I b.5 t1 050 81 00
ô000
-
2080 9200H0t r Zooo/ìJlt
H0tT 2000/N
H0il 3bou/rj
HUI I5 /U/WUL
HOlls 1bOi NIJL
HOm 250/NIDL- 240
N/BI.L HOITS 250/D
HOTTS 400/r.)
415H0rTS 3500/D
XE
HOL 80 SUPER DT LUXT
HOL 125 SUPER DE LUXE
HOL 50 DE LUXE
HOL 80 DE LUXE
HOL 125 DE LUXE
HOL 250 DE LUXE
IVBF HOt 4OO DE LUXE
Eb
No rgnrtor
required
4000
(8) -- 3l
35
2560
415 8.8 6.5 15 5 245 2010 4500 53001-
20
180 98 29.0 220 4
10 0.5 143000 1 5000
110_ 4300 _60001 6000
213
35 215 i2-ml5ooõ-32
25 88 12
---T-95 3518 1.0 2.5
30 15 4.2 100
3.5 2.0 50 120
1 8.0 9 8 29.0 220
385 5600 7600
6
-tõ-3
4 60 6000fõbo 8800 1000 100
214
0.35---BE- 3ooo - 40-i5- ----6f
1
----T----1¡-
1----T----1¡----tT-_T--1
9000 -__-_I---lõ-
-ir--n---41-
60
---T
2
0.8 05 1.2 115
1.15 U.t 1.8 l¿b
0.6 035 085 95
0.8 0.5 1.2 1 1 5
'1.1b Q./ 1.8 125
2]5 1.5 3.2 1 30
3.25 2.4 54 135
5 4 4.0 9.0 140
1.5 5.1 13 0 145
06 035 0.85 95
0.8 05 1.2 1l5
1.1 5 0.1 1.8 125
59 3300 40
89_ 3200131
50
215 1.5 3.2 1 30
ffi0.6 0 35 0.85 95
0B 05 1.2 i15
ffi
266 3100 100
lZsJo-0õ---T05--58----420-0----lO-
No ronitor Not 89 4100 50required possrble ..=--=---
13 t 4000 70
266 3900 1 00-775---JB-00-ro-b
130
l¡¡s 160
10
137 3400 loo (/)
4
6-t¡-ñUL ÐU 2
HOL 80
ñuL tlc
HOL 25t)
HoL 400735HOL /0tì 3550
HOL 1000
HOLB 50 SUPER DE LUXE 59 <112900 _
893500 60 (7)
MBF,GHOLB 80 SUPER DE LUXE
MBF-RHOLR BO DE LUXE
HOLR 125 DE LUXE---1¡-
IúBTF HWL 160 0.8
MBTF-R HWLR 160 DE LUXE--0.7b
(1 ) Preliminary data.
(2) Neilher ballasl nor ignilor required.
(3) InductÌve operat¡on, no power factor correctìon
(4) Switching cycle I hours except H0l > 1 000 W = 3 h, see "Rated Lìfe", page 43.
(5) cos ô = 0.9 at 50 Hz.
(6) See "Lamp Circuits", page 44.(7) See "Luminous Intensity Distributions", page 47.
(8) Service life 4000 h at a sw¡tching cycle of 3 h, 9000 h at a switching cycle of I h
1'1 92--17---- l-
n0r
4g
160 (2) 3200 50 (7) 6000 ballast required
SodiumBenef its
Lamps
Operation
Sodium lamps are made in two types. the older SOX low pressure and the newer NAVhigh pressure sodium lamps.
High pressure sodium lampsVIALOX@ NAV (SON)
Hrgh lrght output.The appearance is golden. but colour vìsion is possibleLong lifeSmall decrease in light output during life.Larger range of types and wattages available:
NAV.Eln coated elliptical bulbs for unrform surface luminance. The dimensions correspondwith those of WOTAN HOL mercury and POWER STARS HOI metal halide lamps ofthe same wattage thus increasing flexibility and reducing stock keeping. Existingluminaires can be used for all three lamp types. Most are also electricallyinterchangeable with HOI lamps (ballast and ignitor controlling both lamp typesavailable).
NAV-Tln tubular clear bulbs for luminaires with precise light distribution.
NAV-TSln double-based clear tubular bulbs for floodlights. This type is also suitable for instantrestart of the hot lamp when used with a high voltage ignitor.
OperationWhen swrtching the lamp on, a discharge starts in the inert igniting gas in thedischarge tube. The pressure in the discharge tube rises then to about oneatmosphere (100000 N/m2) and the sodium-mercury discharge gas becomes activeand radiates light. Luminous efficacy varies between 70 and 130 lumen per watt,depending on lamp type and wattage.WOTAN VIALOXG) NAV High Pressure Sodium Lamps consist of :
1. Discharge tube made of material resistant to the chemrcally active sodium. Thedischarge tube is filled with an inert starting gas. mostly xenon. and a sodium-mercury discharge gas.
2. Electrodes are made of tungsten and contain emlssive material.3. Bulb in clear tubular or coated elliptical shape.4. Edison screw base E 40, except 50. 70 and 1 10 which have E 27 and NAV-TS
which have Fc 2 bases, one at each end.
Low pressure sodium lampssoxHighest efficacy of all lamps.
Give yellow light which is monochro,matic (unicoloured). Colours cannot bed istinguished.
OperationTubular outer bulb houses a U-shaped discharge tube and has a BY 22 d bayonetbase. Under normal operating conditions the discharge tube has a pressure of7 x 10-5 atmosphere (0.7 N/m'?). Luminous efficacy varies between i 00 and 1 83lumen per watt, depending on lamp type and wattage.SOX Low Pressure Sodium Lamps consist of :
1. Discharge tube made of special glass is protected on the inside against chemicalattack by sodium vapour. lt is filled with an inert starting gas, mostly neon. and thesodium discharge gas.
2. Bulb made of clear glass is covered on the inside with a transparent reflector, thepurpose of which is to reflect infrared heat radiation. Vacuum between bulb and
discharge tube together with the heat reflector insulate discharge and maintain therequired 27OC.
3. Two electrodes made of tungsten at both ends of discharge lube
J
2
33
NAV E
sox
NAV_IS
2
{
49
Un¡vd3!l -L
VIALOX@ NAV DE LUXEVIALOX@ NAV SUPERHigh Pressure Sodium LampsLamp Types
I uminous flux Dimensions
Light
centre
clE clE
colour colour
Luminous rendering appearance
eficacy group grouP
Base lm/W (Ð (3)
Lamp
wattage
length
(â)
mm
N¡ ax.
length
{t)
mm
Dia.
(d)
mmlm
Lighl¡ng
design
lm
11900
lnirìal
Lamp relerence
VIALOX@ NAV
Very high luminous efficacy. up to 130 lm/W. and long life result in longer replacement
cycies ãnd high economy A full range guarantees the suitable type for each
application.
NAV DE LUXE (SON DE LUXE)
High pressure sodium lamps with improved colour rendering. Main applications are
inierior industrial and commercial installations. as well as prestigious street and flood
lighting.
Coated elliptical bulb.lgnitor required.
NAV E 1 50 DE LUXE 'I50 1 2OOO BO
s0 226NAV E 250 DE LUXE 250 22OOO 21800 88
90
B3
Ê40 3
NAV E 4OO DE LUXE 4OO 36000
Clear tubular bulb.lgnitor required.
NAV T 1 50 DE LUXE 1 50 1 25OO
35ô50 120 285
1 2400 46 211 132
NAV T 250 DE LUXE 250 23OOO 22150
NAV T 4OO DE LUXE 4OO 3BOOO 37600
251 1 58F.')
-
285 115
E40 92 3
95
NAV SUPER (SON PLUS)
Hrgh pressure sodium lamps with increased luminous efficacy'
Coated elliptical bulb.lgnitor required.
1 00 9500 9400 15 186 95NAV E 1OO
NAV E 150 SUPER 150 15500 1 53s0
51000 120
103E40
-
120
129
80104 E21
-
90 4
NAV E 250 SUPER 250 30000 29700 226
NAV E 4OO SUPER 4OO 51 5OO
Clear tubular bulb.lgnitor required.
NAV T sO/E 50 4000 3950 3l 156NAV T 7OlE 10 6500 6400
NAV T 1OO 1 00 1 0000 ss00 10046 211 132
113E40 _
132
139
4
NAVTlSOSUPER 150 l7OOO 1 6850
NAV T 250 SUPER 250 3 257 1 5852--285 115
3000 32650
NAV T 4OO SUPER 4OO 55500 54950
I
1NAV-ENAV-T
Burning posit¡on
l--l permissible
l- 1 not permissible
SOX 9O W tosox 180 w SOX 35 W to
sox 55 w
50
NAV.TSsox 18 w
-
VIALOX@ NAV High PressureSOX Low PressureSodium LampsLamp Types
Lumrnous llux Dimensions
Raledp0wef lnitial
crEcolour
LighlIt4¿x. cenlre
I rqnlrng D ¡ l"¡glh lengthoes'gn (d) (l) (¿)
lm mm mm mm Base
Luminousetficacy
-TõBtn13õ-
clEcolour
renderinggr0up
(2)
appeôrancegfoup
(3)Lamp relerence lm
VIALOX@ NAV Standard High Pressure Sodium LampsMain applications are outdoor traffic and industrial lighting as well as industrialinterioi iigf'ting where requirements are not so stringent.
VIALOX@ NAV-E (SON)
Coated elliptical bulb.lgnitor required.
10 156 82710 bti00 5500 BONAV I /U/I
NAV t lbO 1 50 1 4000 I 38bU 90 226---------¡3
F4o I uu
rT6----1ro
E27 BO
-ÌT--mF40 ----aT
4
NAV T ZbU 250 2b0uu 24800
NAV I 4OU 400 4 /000 4 ti 5uu 120 290
NAV E 1OOO
see page
Coated elliptical bulb.No ignitor required.
1000 1 20000 1 I g{JUU 1 65 400
10 156NAV L /U/I /t) b ii0u 5550
NAVE110(1.4) 110 8oo0 / 9UU 15 1t5
t\AV r zru (4, 2 t\) I ðUUU VU ¿tó
NAV t 35U (4) 3b0 340uu SJbUU 120 290
VIALOX@,NAV-T (SON-T)
Clear tubular bulb.lgnitor required.
txu 15 IUU 46 251 1 58 E40
NAV I 4OO W 400 48000 4 /bou 285 115
NAV T ']OOO W 1 OUO I 3UUUU 1 29000 ti t) 240
see page
d dVIALOX@ NAV-TS (SON-L)
TS double-based clear tubular bulb.lóiÑÃV fS lamps can be instantly restarted when using a special high voltageignitor.lgnitor required.
t\AV- tò ¿cv vv 25\) I55UU 23 206 103 Fc2 tut120NAV TS 4OO W 400 48000 45500
SOX Low Pressure Sodium LamP
Low pressure sodium lamps have a luminous efficacy up to 183 lm/W. The light ismonochromatic yellow.
Áppliðutiol: Rôad Lighting with low colour requirements, for tunnels, canals and
locks.
Clear tubular with rnfrared reflectin$ coating.
SOX 3b W 35 4800 52 310
425- 131
BYz2d ---17I 5(J
-166---l¡3-
4 /0\)
SOX 55 W bb 8000 7850
90 1 3b00 IJZSU 524SOX 9U W
SOX 13b W 66 775
-ñ2O
t35 22500 ? ? ()()1)
SOX 1BO W '1 B0 33000 32300
(3)
(4)
(5)
Colour rendertng groups:ià in., > gól WhËt"uer accurate coloul matching is required, e g. colour prrnting rnspeclionigiBö<R,'<gO)Wherevero".uirì""oøu, ludge.eÄt.arenãcess¡ryand/oigoodcolourrendprrngrstequrredfot
ieasonr ól appe¿'rnce. e.q. shops and other commercial premises? r60 s R < B0) Wherever moderdÌe colour renderlno rs requlrÞdã i;o : iì' . 60í wh;;;;;' , olor, '"nãér.ô
rs oi trttlË siqn¡irc¿nce but mdrl ed drstorlion of colour is unacceptable; ìtö ì iì, . 4ój Wü;;;;;; .óióui i.nð",'nõ is ot no rmpðrtance at dll dnd marked drslorlron ol colour rs acceplable
Correlated colour temPeratures:W{CCT<3300 l)WarmI f33OO f < CCf < 5300 K) lntermedraleC (5300 ñ < CCT) Coldir'n ni .rn be useá rn lumin¿rres m¿de lor I 25. 2bO or 400 W mercury lamps respecttvelv rf the bdllasls,dreàliå"rriiãolã t.i tne n,qner ldmp current ol hrqh pressure sodrum l¿mps Checl' ¡f the IFC specrlrcdtrons lor marrmum
permissible wrndrng temperatu,"t år"-óòi"ru"'ä in tute of doubr consult wtth luminarre mánufacturer before lamp change
Distance between contacts
Ã1
õ
U u
Lamp Start NAV 50 to 40O
Sodium LampsTechnical lnformation
Ballast and circuit diagram
Like all other discharge lamps, sodiunilamps must be series connected to a currentlimiter and have an ig"nitor ihe correct circuit components must be selected for each
lamp type, power rating and supply voltage to guarantee proper lamp operation, see"selection of Ballasts and lgnitors", page 57.
NAV high pressure sodium lamps must be series connected with a ballast as
current l.''m¡ier. An external ignitor is normally necessary because of the high
starting voltage required (except NAV plug'in lamps).
SOX low pressure sodium lamps require a starting voltage of 400-600 V
Normally cbntrol components are used which serve as current limiter as well as
ignitor.
Power factor correctionThe uncorrected power factors are:
NAV with ballast abt. 0.5-0.7SOX with control components abt. 0.3
For proper power f actor correction:The correct capacitor must be selected for lamp type and wattage. They are listed
under "Technical Lamp Data". page 54,
Capacrtors must be correctly connected. see "Lamp Circuits", page 44'
Lamp startAn inert starting gas starts the discharge in the discharge tube which then ignites thelamp. The tempérãture in the discharge tube and the pressure of the sodium vapour
then increases gradually. ln high presiure sodium lamps it takes about 4 minutes untilg0% of the maxìmum luminous flux is reached. ln low pressure lamps this takes about9 minutes.
ln uncompensated NAV circuits starting currents are about 1-2 times higher thanlamp currents.
For SOX lamps the starting voltages are about 1.5 times higher than the lamp
voltages.
Restart of hot lamPsNAV-E and NAV-T high pressure sodium lamps with an external ignitor requtre about '1
minute to restart when they are hot.NAV-E plug-in lamps about 5-7 minutes because they use starting electrodes. no
ignitor. The exact time depends on luminaire_design." NAV-TS Iamps can be restarted instantly. For this a special ignitor with starting
voltage of about 25 kVp is requiredLow pressure sodium lamp SOX can be restarted instantly when hot.
Voltage characteristicsThe dragrams on page 53 show how the technical data changes with supply voltage
variatioÃs, The lamp voltage varies to a larger degree than the supply voltage.
Overrunning and underrunning will result in unstable operation or extinction of the
lamp. The maximum permìssible short time supply voltage variation for high pressure
sodium lamps NAV is +5%. For constant supply voltages variatrons a tapped ballast is
required. Permissible frequency variation is -t2o/o. Therefore it is important to select a
ballast for the correct supply voltage. For low pressure sodium lamps SOX the
maximum permissible supply voltage variation is +'l 0%. This has no major influence on
the luminous flux;however. constant overrunning wrll shorten the lamp life.
Power reductionThe power of NAV 100, 150, 250 and 400 lamps can be reduced to 50% of the
nominal power by means of :
Sequence switching to ballast of lower rating or
Sequence switchrng with additional inductance
At reduced power the luminous efficacy is only slightly reduced. The light colour
becomes more yellow and the colour renderrng less favourable'
Radio interference
After ignition, radio ìnterference does not normally occur'
Lamp Start NAV 10OO
I 10 1l
.\
16
Lamp Startsox 18
Lamp StartSOX 35 to 180
lL : Lamp Current (A)PL : Lamp Powe¡ (W)UL : Lamp Voltage (V)
Õt- : Luminous Flux (lm)
¡
12
J¡
L'
U'
/ç
52
Voltage Characterist¡csNAV 50 to 70
Sodium LampsTechnical lnformation
Temperature characteristicsHigh pressure sodium lamps NAV burn correctly between temperatures of -30 and+'l 00'C. The luminous flux does not vary appreciably between these temperatures.The luminous flux of low pressure sodium lamps SOX. however. depends more ontemperature. At an ambient temperature of +20'C ¡t is at a maximum. At 0"C itdecreases bV 3%, at -20'C by B% and at -30'C by 12%.
Luminous fluxLuminous fluxes are listed in the tables on pages 50 and 51 lnitial lumen is given for100 burning hours. Lighting design lumen of NAV lamps for 2000 hours and SOXlamps for 3000 hours. Mean lumen during rated life of NAV lamps may be higher thanlighting design lumen.
For lamps which can burn horizontally and vertically, fluxes are given for verticalburning position;in horizontal burning position they decrease by about 3%.
Lumen maintenanceThe light output decreases during the lives of most light sources. The decrease inluminous flux of sodium lamps is caused by electrode deposils on the inside of thedischarge tube which reduces transmission of light. The decrease in luminous flux issmall for both high and low pressure sodium lamps. The diagrams on page 54 showaverage lumen maintenance and mortality during life at a sw¡tching cycle of B hours.
Lamp lifeSimilar conditions exist for sodium lamps as described for mercury lamps. see "Rated
Life", pages 45 and 54.
Burning positionNAV-E and NAV-T lamps have universal burning positions. NAV-TS and SOX lamps arerestricted. Details are given on page 50.
Light colour and colour renderingNAV lamps radiate light in all wavelengths of the spectrum. The main radiation,however, is in the yellow and orange range. see "Spectral Power Distributìon". page75. This results in a pronounced golden colour appearance. A certain colour renderingcan be obtained, but it is not particularly good. Neither type of sodium lamps can be
used where good colour rendering is required.The light from SOX lamps is a strong yellow. lt is monochromatic (unicoloured) with
radiation in only one wavelengh. No other colours can be distinguished. All differentcolours appear as different shades of yellow.
High pressure sodium lamps have a colour rendering index Ra : 20 and a colourtemperature of 2000 K.
Low pressure sodium lamps are monochromatic and therefore a colour renderingindex is not very useful. The colour temperature is 1 800 K.
Luminaire designLuminaires for all SOX lamps should be designed with a pressure-free lamp support atthe end opposite the lamp base in order to minimize the influence of vibration.
FlickerNAV: Extremely low flicker factor, max. 0.5%.
StandardsWOTAN Sodium Lamps comply with the following lnternational and British Standards,where applicable:
IEC 6i Lamp Caps and HoldersIEC 192 Low Pressure Sodium Vapour LampsIEC 662 High Pressure Sodium Vapour LampsBS 3767 Low Pressure Sodium Vapour LampsBS 5101 Lamp Caps and Holders
t1
10 110
120
Voltage Character¡sticsNAV lOO to 1OOO
90 100 110suppry vo¡.s. tsr
Voltage Character¡st¡cs SOX
Õr
9080 00
lLPL
UL
Õr-
: Lamp Current (A): Lamp Power (W): Lamp Voltage (V): Luminous Flux (lm)
5.J
/,I
uvy'l /
/t'lte' '//r
Sodium LamPsTechnical LamP Data
Lumen Ma¡ntenance SOX 18 Lumen Maintenance SOX 35 to 180
0 2æ0 4000 60(x)Hours burned
Mortal¡ty SOx 35 to 180
Ma¡ntenance150 to 1000
0 3(m 6000 9000 15 000
Hours bu¡ned
Mortâl¡ty NAV 100 to 1000
0 3000 6000 90oo '12000 15moHours burned
Approx. T me lag
fuse
Crcuit recommended
diagrôm (2)
(5) A
LumênNAV
ôE-¿
3È.ç
o
oÀ
coE:3Í;o
oÀ
o.l¿t
o
oÀ
rOo:OJ
O6ÀE
oo
oô-
4000
Mortal¡ty sox 18
6(m 8000 10000Hours burnod
øo.: Bo¿øy6Oq)o
o40o-
80
60
40
2000 4000
I¡men Matntenance and MortaliÌy curves are shown for an 8 hour switching cycle
6000 80{Ð 10000Hours burned
0 2000 40ü) 60m 8000 10000
Hours burnod
ApProx
connecled
Lamp Sta(ìng lamp
ili1in. rgnrlion
voltaae
Lamp
relerence
Supply
volt¿ge
Normôl
restart
kvp
lnslant
rest¿rl
kvp
Approx
cIcuitp0wef luminance
kcd/m2
Avg
Rated
life
(3)
h
PFC
capac itor
(4)
¡rFLIF
curenl curfent cuffent LamP
(2) l2l (4) volìase
AAAVreference
,Ø'/// ,/,/,//. '/2Ø
,2 ,2-\<< /-/4 7>- >\-->7<<<
,<,<'
t/0 80 20NAV E I 50 DT LUXL (tJ) 18 lb 10 100
s0N45 1.5
'¿/5 110?8-----36-
-E-----ll--n--___3ô
-- 45-
10
2A=_T-'-- 1of
DE LUXE NAV E 250 pE LUXE (6)
NAV E 4OO DE LUXE (6)
J.U
450 90 1044 65 '¿.b '105
llb 150NAV E 1OO Lt 'ì 8
IU 100 lluSON
PtUS
NAVtlb0SUPtl{ IE 26tt5 t 3t]
NAV E 250 SUPEB (6)
NAV E 4OO SUPER (ô)
3.0 45 1.5 35240 t0
10b 4bu44 öb t.5
12 0.4b ðb1.8
o¿ 4UNAV t b0/r 0/t
0.ôÑAV E 7OlE 1.0 lb1 /l) 100
qt.u 2.6 .0
s0NNAV I IbU
NAV E 250100
2.8 t9u30 45 lb2lt¿ t0
2.5 10b 45U4.4 tibNAV t 4UU
300110 3.5 1090NAV T ]OUU IU.J 16.0
NAV E 5O/I o.t / 1.2 04b Eb þl 4U
1ô0 9000
l0- ---TT----r-18'-
06 c0 No ignilor
required
Not
possibleðJ t0
1.0'ì
t)
s0N ñÃvE1]1-NAV E 210
0/ 125 1)) 110Ltb 1.1
Plug-in 117 tJt t3u3.4 1.4
IU2.1 125 38b
NAV T J5U 345 52
SON.T
DE LUXE
¿t)
-- 36-45
-Tr- -1î-
-36-45----T-- 36
--mo
]E 26 1.0 100ZbUO
NAV I 1b0 Dt LUXL (b)
ñãVl-rtd¡f-iúit (6-)- 240 30 4.5 1.5 2.8 u5 3b0t)
4000 IU65 105 45tJ
NAV T 4OO DE LUXE (6) c4 't5
1.2 0.4b 851.8
bt 2bUUNAV r 5o/r (ö)
NAV T 250 SUPER (6)
NAV I 40{J SUPLH (b)
1.b 0ô 9U 4000 12
ñÃvT]¡õ-NAVT150SUPER
10
1.8 1tb 3000 4SON.T
PtUS
1t2.6 10 100 17018
4.b 1.5 I t5 50u0JU 35
4b0 6000 l04.4 6.5 75 105
2.6 10 170NAVTl50 1.8 100
4.b 1.5 2.8 ¿/5 4000NAV I ZbU
ñÃvi7oil_-JU
SON,T 4bu 5000 t044 6.5 105
iJUUU 25103 160 60 ltu 3.5 IUVU
NAV T lOOO
NAV TS 70 (6) LU lb Ul) c0 t.8
450 5500
tt
--36-----ñ20 -T 4000
SON.L 3U 4.5 15 IUU 2.810
6.5 2.5 105
54
(4)(5)(6)
26
-_Æ-40
2t3
10
NAV TS 4OO 4.425 5 (1)
SOX 1B 0.35 5t---1f- 1Oil Noignitor
-i15 required
--16il-u5
56
Not lb
possible
-1 13
---- 11b-'---rñ-
100 10000
SOX 35 2A1.4 0.6
sox SOX 55
SOX-sOx 1 35
t.l
3.10.9
SOX 1 BO
(1)
(2)(3)
Capacitor essential.lnductive operation. no power factor correction.Switching cycle 8 hours, see "Rated Life". pages 45 and 53.
cos d : 0.9 at 50 Hz.
See "Lamp Circuits", Page 44Preliminary data.
l
High lntensity Discharge LampsBallasts
All discharge lamps require a current limiter. ln most cases this is a ballast. lt must be
series connected to line. ignitor and lamp and serves as an inductive resistance. ltrestricts the current from the power supply to that needed by the lamp. A lampoperated without ballast would be destroyed. Because it has to supply the exactcurrent to the lamp. it is important to select the correct ballast for the supply voltage.lamp type and wattage. lmproper selection or low quality ballasts can result inimproper lamp operation or short life. Proper operation and long lamp life depend verymuch on the correct selection of the ballast.
Discharge lamp types (except HWL) need the correct ballast type, one for eachlamp. Some WOTAN ballasts and ìgnitors are unique in that they can accommodateHOI metal halide as well as NAV hiqh pressure sodium lamps, thus increasing flexìbilityand reducing stock keeping.
Most ballasts are designed for 240 or 415 V. Because the supply voltage influencesthe lamp operation and life considerably. the following maximum short time voltagevariations must not be exceeded:
lVercury (HOL) +10% High Pressure Sodium (NAV) +5o/o
Metal Halide (HOl) +5% Low Pressure Sodium (SOX) +10o/o
For continuous operation at such voltages. or if frequent peaks within thesetolerances are expected, tapped ballasts must be used in order to ensure properoperation and full lamp life, e.g.23012401250V. This means that, e.g. if the supplyvoltage is below 235 V or above 245 V. the 230 V or the 250 V tapping respectivelymust be used.
An amendment to IEC Publication 662 "Hrgh Pressure Sodium Lamps" determinesthat considerable life shortening also of HPS lamps must be expected if they are
continuously operated at a supply voltage which is more than 7 V (for < 150 W).respectively'more than 10 V (for > 150 W) higher than the rated supply voltage ofthe ballast used. lt is therefore recommended to use also tapped ballasts for HPSlamps. They will allow proper adaptation to existing supply voltage conditions.
Ballasts must not be overheated because this would change the current supplyresulting in faulty operation and reduced lamp and ballast lives. A ballast temperatureexceeding the maximum permissible ambient by 10"C reduces the ballast life by onehalf. Ballasts have a rated lrfe of 10 years at the maximum winding temperature tw :130"C
The distance between ballast and lamp can exceed 50 m. if adequate cross sectionof cable is used.
WOTAN has an approval system for ballasts and ignitors. Any manufacturer cansubmit his circuit components and obtain a WOTAN approval number, if they fulfil therequirements and are of the required quality. Lists of different manufacturers are
available from WOTAN Lamps Ltd on request.This approval number, however, is not an electrical safety approval. Ballasts and
ignitors not having WOTAN approval numbers could cause problems.
Ballasts for mercury lamps
Available from electrical wholesalers. They should correspond w¡th IEC Publ.459 andBS 4l82 "Ballasts for discharge lamps (excluding ballasts for tubular fluorescentlamps)".
StandardstEC 262tEC 459BS 4782
Ballasts for high pressure mercury vapour lamps.Ballasts for low pressure sodium lamps.Ballasts for discharge lamps (excl. ballasts for tubular fluorescent lamps)
55
THigh lntensitY Discharge LamPslgnitors
For reliable ignition and optimum life o{ most discharge lamps a properly selected
ig;¡to¡. is reqirired. Excessive switching of all discharge lamps results in a shorter lamp
tife. tmpropei selection or low quality ignitors can result in improper lamp operation or
short life.Most discharge lamps do not ignite on the supply voltage and require an external
ignitor. Exceptio=ns are HOL, HWL, HOI-T 2000 and certain NAV lamps. which have
built-in ignitors.Three
-main ignitor systems are available which have certain advantages and
disadvantages for particular applications:
( 1 ) Electronic superimposed ignitors
Series connected to line with ballast and lamp. Can be used for most high pressure
sodium and metal halide lamps. Give a starting voltage of up to 5 kVp' Superimposed
ignitors should be mounted in the vicinity of the lamp. Advantages: Electrical safety,
lów radio interference. Restart time of hot HOI 5-1 0 minutes, of NAV 0'5-1 minute'
Maximum distance between ignitor and lamp 3 m.
(2) H¡gh voltage ignitors for instant restart of hot TS-lamps
Hot HOI-TS and NAV-TS lamps can be instantly restarted when using a special high
voltage ignitor. The starting voltage Íor '70'1000 W lamps is 25-35 kVp, for 2000 and
35OO W ðO tVp. Medium rádio interference. The distance between ignitor and lamp
must be as short as possible (0.3 to 0.6 m).
(3) Gontrol components for SOX lamps
Are available from electrical wholesalers. Application deta¡ls are available from them or
the manufacturers. They should correspond with
IEC Publ. 459 Ballasts for low-pressure sodium vapour lamps and
BS 4782 Ballasts for discharge lamps (excluding ballast for tubular fluorescent lamps).
Silicone high voltage cables
Because of the high ignition.voltage required for normal and instant restart, special
silicone high voltage cable must be used between ignitor and lamp'
ormal restaftDegree of
proteclion 50-1000 w 2000-3500 w
lP20 9-1000-KA-901-7 -
lnstant restart
70-1 000 w
9-1 000-KA-901 -8
2000-3500 w
56
High lntensity Discharge LampsSelection of Ballasts and lgnitors
lgnitor
Ball¿st Nôrmål restârl
ZRIV 1.8-ES
lnslânl restarl
Nol possibleHOI T 35/WDL OMBIS 35
HOI T 7OIWDLOt\¡Bls 70
HOI ÏS 7O/(NDL, WDL) 240 SMZ 6
HOI T 150/WDL
HOITS 1 5O/NDL0MBrs 150
Not possible
24026.sHOI TS 250/NDL
H0r (E, R, T) 250/(D. NDL) OcLrs 250ZRIVI 6-ES
ZRI\¡ 1 2-ES
Not possible
HOI TS 250/D 24076.s
Not possibleH0r (E. T) 400/D OGLS 4OO
HOr (E, T) 400/D (H. v)OGLl 400
OGLrs 1000
HOI TS 4OO/D
Hor (E. T) 1 000/(D. N)
2 x OGL|]2000
24026.s
Not possible
420 Z 4 BlDz
Not possible
None required
ZRIV 12 ES 4OO
HOt T 2000/D/l
HOt T 2000/N
HOr rs 2000/D
Hor T 3500/D
HO TS 35OO/D
oGLt 2000
2 x OGL|j2000
3 x OGL|{3500 zRM 20-ÊS 400
NAV (E. T) 50/E ZRIV 2-ESotúBS 50
NAV E 5O/I None required
NAV (E, T) 70/E ZRI\¡ 2-ES
NAV E 7OlI ONilBrs 70 None required
NAV TS 70 ZRIV 2 ES
NAV (E, T) 100 OMBS 1OO ZRIV 6-ES
NAVE 110 Standard MBt 1 25 W None required
NAV (E, T) 1 50 (DE LUXE, SUPER) 0r/Brs 150 ZRM 6-ES
NAV E 210 Standard IVBF 250 W None required
NAV (E, T) 250 (DE LUXE, SUPER)oGLrs 250 ZRI\¡ 6-ES
NAV TS 250
NAV E 350 Standard MBF 400 W None required
NAV (E, T) 4OO (DE LUXE, SUPER)OGLS 4OO ZRM 6_ES
NAV TS 4OO
NAV (8. T) 1000 ocLrs 1 000 ZRIV 12-ES
ULTRAMED 4OO OGLS 4OO ZRN4 6-ES
ULTRAMED 1 OOO oclts 1000 ZRN/ i 2-ES
ULTRAN/ED 2OOO 2 x OGL|å2000 ZRN/ 2O-ES 4OO
ULTRAI\4ED 4OOO 3 x OGL|.1 3500 zRM 20-ES 400
Most WOTAN ballast and ignitors are approved by:
BSI (Great Britain) Nemko (Norway)Cebec (Belgium) Semko (Sweden)Demko (Denmark) SEV (Switzerland) orEIRF (Finland) VDE (Germany)KEMA (Netherlands)
For details and lrsts of approved ballasts and ignitors made by othermanufacturers, please contact WOTAN Lamps Limited.
420 Z 4 BlDz
Not possible
240 SMZ 6
Not possible
24026.s
Not possible
24016.s
Not possible
24026.s
24026.s
420 Z 4 BlD2
420 Z 4 BlD2
E
57
Special Lamps
HOV and L... 173Black Light Lamps
HOV
Some materials possess the property to convert invisible UV radiation into light(fluorescence). HOV andL...l73 are lamps emitting long wâve UV and thus creatingfluorescence. They are, therefore, the ideal source for research work requiringfluorescence analysis. Beyond this they can be used for special luminous effects intheatres and nightclubs.
WOTAN mercury high pressure lamps with elliptical or tubular bulbs made of Woodsglass (HOV and 1.../73) generate rays only in the long UV between 300 nm and 400nm. They are invisible to the eye and absolutely harmless. The visible radiation is
absorbed almost completely.
The irradiance is measured at a distance of 1 meter at mid-lamp level and for the HOV125 amounts to approximately 150 mW/m2. The irradiance of the L 18173 amounts toapprox. 0.5 W/m2 and of the L 36/73 to 1 Wm2.
Application
Material researchTests by means of fluorescent solutions, e.g. for the detection of hair cracks in engineshafts.
Textile industryMaterial analysis, e.g. the composition and nature of material consisting of wool andsynthetics. Detection of otherwise invisible and possible dry-cleaning stains.
Foodstuffs industryDetection of adulterated foodstuffs. decayed fruit (especially oranges). meat. fish, etc.
Criminal investigationDetection of forged banknotes, cheques, documents or subsequent alterations ofsame, removed blood stains, counterfeit paintings etc.
Mail service.
Efficient operation of automatic letter stamping machines, detection of forgedpostage stamps.
Special illumination effectse.g. on theatre and operatic stages, in nightclubs, discotheques, bars, etc.
Further fields of application:advertising; shop windows; agriculture (e.9. examination of seed corn); mineralogy.
Examination of gemstones; art historical tests; paleography; diagnostics.
The operation of damaged HOV lamps or without an outer bulb is dangerous and notallowed.
L 18/73L 36/73
d
Icc
Èo€,
Lamp relerence HOV 125 r 18/73 r 36/73
Lamp cunent A 1.1 5 0.37 0.44
nm Lamp power W 125 18 36Wavelength
Diameter d mm 75 to töSpectral Power Distr¡but¡onHOV 125
Length I mm 170 590 1200
Base 827 b tJ G13
1,0Ballast Standard MBF 125 W 20WSS 40WSS
I
I
Êco
=:o
0,
0,5
300 350 400 nm 450
Wavelength À
Spectral Power D¡stribut¡onL 18173
ll
t.\
L
/I
I
L-
Starter sr 171.Sr 111
59
-.r
õEo@
ULTRA.VITALUX@UV Lamps for Technical Applications
ULTRA,VITALUX !Because of their sunlike radiation and simple installation ULTRA-VITALUX lamps are
particularly well suited for testing of materials and instruments used in differentenvironments eg in the tropics. for artificral ageing, weathering. establishment of
changes in materials. operational safety or life in special climates.
The total irradiance of the sun at noon on a sunny June day is in the average 1 kW/m2
(annual avg. solar radiation at 50'N latitude: 200Wlm2). An array of 16 UV lamps per
square metre with a distance of 50 cm between lamp crown and irradiated objectrepresents a similar irradiance.
For curing of plastics
Modern plastics can be cured with UV. Special photo initiators cause polymerization
in plastics when exposed to UV.
The advantages of this process are:Only one substance is needed. No need for mixing
and measuring. Almost unlimited processing times are possible under normal indoor
lighting. Pot time is no problem. Fast curing by UV. Clean processing in the trade. in
workshops and as a hobby.
For exposure of photoresists
ln electronics the pattern of printed circuits is transferred by means of UV ontophotoresists. After development the printed circuit can be etched, whereby only the
desrred conductors remain.
Simple handling and high UV content distinguish ULTRA-VITALUX@ also for thisapplication.
Mushroom shaped reflector bulb of special hard glass'
Base E 27.Universal burning position.
Ø 127 màx.
Lamp Lâmp
Lamp
refet€nce
ULTRAVITALUX{'
('l) Time during which the UV radi¿nr power decreases to 50% of the radiant power ol a new ULTRA-VIÍALUX@ lamp
Spectral Power Distribution
voltage wattageRun-up
t¡me! m¡n
Serv¡ce
life (1)
h
1 000
w
300240 2
ta
700
600
500
400
ã sooo
E 200o* .100
è_ØU800 1 000
Wavelengtrì À '
O
lVrsrble radralron Short wave rnfrared
[/]edium-waver nfrared
I
I
¡ I
II I
60
300 400 600 1 400 nm 2000
Before treatment ofdiseases consult yourphysician regardingoptimum treatment.
127 max
ULTRA-VITALUX@Sunlamps
The radiation of this well proven sunlamp for partial exposure of the body closelyresembles the radiation of the sun and has the same large share of the biologicallyuseful effect of the sun. Regular exposures increase the feeling of well-being, improve
the resistance against diseases and give the skin a healthy sun tan. Simple installationand operation on 240 V - supply voltage.
Properties:
The ULTRA-VITALUX@ lamp emits a blended radiation which closely resembles theradiation of the sun in high mountain areas and has the same vital biological effect on
the organism. This blended radiation is generated by a quartz discharge tube and a
tungsten filament. The bulb of this sunlamp is of special glass which transmits onlythat part of the radiation which is also part of the solar radiation.
Biological effects:
Many medical publications have dealt with the biological effects of the ULTRA-VITALUX@ sunlamps, e.g.
Better blood circulation of the skin which becomes more elastic and smoother. whilsta healthy suntan is obtained as a cosmetic side effect.
Regulative effect on the vegetative nervous system. For the organism this meanspreservation of its resilience and efficiency or improvement of its capability toregenerate after hard work or illness.
Reduction of SH-groups, a result of which stimulates many bio-catalysts, e.g. enzymes,
ferments, vitamins etc., to more intensive activity.
Raising. or regulation of the calcium level.
Prevention of infectional diseases on account of the bactericidal effects.
Excellent results in the treatment of acne, furuncles etc.
The effects of ultraviolet radiation can be intensified by simultaneous infraredradiation.The UV irradiance at a distance of 1 m is:
UV-A approx. 5 W/m2UV-B approx.2W/m2.
Mushroom shaped hard glass reflector bulbBase E27Universal burning position
Lamp Ssrvice
life (1)
h
wattage
ULTRA
(1) Time during wh¡ch the UV râdiant power decreases to 50% of the radiant power of a new ULTRA-VITALUX.B'lamp.
Lamp
referencg
61
_I
EVERSUNUV-A Fluorescent LamPsfor Solaria and Sun Beds
A soecial ohosphor is used for the manufacture of the UV-A fluorescent lamps. This phgsphor effectively transformsiÀ;-rìlä;iñu;r-úV ru¿"tion ót tf'e low pressure mercury dischargè into a longwqyg-UV-4 radiation. On account ot
iü; f,ii;;ìü;iùi otìnärp"ãiuj gluðt otwr'¡"r'rhe tubé is made-the amount ót uv-a radiation is kept to a minimum.
UV-A fluorèscent lamps are particularly suited for solarta and sun beds. The high UV-A output guarant,ees a,quick sun
tan bv direct pigmentatiolri¡t¡'oui negative effects for the skin. The small shãre of UV-B radiation allows long
;;ó;J"*'i¡nìJt"*¡ääüi ãã"gãr óiiuÀËJ.n and is sufficient to stimulate the formation of pigments whìch are
necessary for obtaining a sun tan.
Lamp teference
Lämp watt
Circuit watl approx.
Lamp voltage
Lamp current
Switch stôrl circuit
Ballast
Starter
UV-A r¿d. flux
(31 5-400 nm) 100 h
UV-B rad. flux
(280-31 5 nm) 1 00 h
UV-C rad. llux
(below 280 nm) 100 h
UV-A mainlenance
after '1000 h
compared with 100 h
L 20179
20
3.5
002
15
t 4{t/79 K
55 92
40
t /to/78 KR r 80/79 L 8O/78-R t 100/79 1 100/79-8 L 100/78-R
80 100
119
oo 101
087 1.0
senessingle lamp
30 50 92qF
A
41
0.88
series sgl
lamp
senes
30w 40w
48
0.46
pairpaìrparr
sgl
lamp
sgl
lamp
2x20w
Sr 111
80w
2xSt 151
2x20w
80w
18
0.02 0.12
100 W 2400 mm
St 191 or St 196
10
23
0.16
l2
PFC capacitor ¡rF 5
sr 1112x
st 151sr 111
11
2xst 151
sl 111
4.5 11 I o
I 7
0.01
19
0.1
79
0.04 003
Vo
0
808079 80
Safety factor (1 )>50 >50 >50
Base G13
Burning position universal
Length I s90 1 500 1164
Diameter d 38
Version no refleclor reflectorno
reflectorreflector no reflector reflector
(1) Threshold ratio erythema: direct pigmenlation. The higher the Safely Factor, the lower the danger of sun burn (see DIN 5031 Pt 10)
Caution:5ãte õô"rat¡on of these lamps is only warranted if used in purpose designed equipment. ln case of questions contactyour equipment manufacturer.
4 4 3
438
tbmm
100
75
,503oo
õ
É
,50ìEzs
d
1
I \ It300 350 400 nm 450
Wavelength i' +Spectral power distribution L . ./78
100 References:
/79 Standard.
/798 With higher UV-B radiation resulting in
shorter tanning limes of prev¡ously lanned
skin.
/79K Standard lamp, shotlened version.
/78R With reflector resulling in higher, more
directional radiant intensity and more
intensive tanning.
'i5
300 350
Wavelength i. -*Spectral power distribution L . ./79
400 nm 450
)
f \[lI \
*/
62
ULTRAMED@Metal Halide Lamps
UV lamp for photochemical therapy, phototherapy of skin diseases and sun-tanning through direct pigmentation.
With this UV lamp. which is particularly intensive in the ultraviolet range from 250 to 400 nm, it is possible to treat
people suffering'from psoriasis vulgaris. parapsoriasis. acne vulgaris etc. with photochemo-therapy, photo-therapy or
selective photo-theraPY.
ln addition the high radiant flux in the UV range enables the use of this lamp for cosmetic purposes. e.g. suntanning
through direct pigmentation. For this type of treatment. however, the radiant flux of the ULTRAMED@ lamp in the UV
B ranfe must beieduced by using supplementary filters in order to decrease the danger of sunburn.
lndustrral applications include the printing trade, varnish drying, hardening and polymerization of plastics. paints and
resin, as well as reprographic use.
ULTRAMED@¡too
240
ULTRAMED@1(x)o
240
1 000
130
ULTRAMED@2(x)0
ULTRAMED@¡1000
Lamp refergnce
Supply voltage
Lamp wattage
Lamp voltage
0
415
2000
415
4000
250
'18
420
't25
4
400 W l.<-" 12 ->l
I250
450
100
800
Lâmp current
UV A radiant llux (3 1 5-400 nm) (1 ) BO 200 800
UV B radiant flux (280-31 5 nm) (1 ) 16 40 160
Service life (2) approx. h 1 000 1 000 500
Burn¡ng posit¡on horizontal I 30'
Overall length 104 141 196 215
Arc gap 35 106 115
Overall diameter d 16 28 30 34
Ba se R7s KY1 0s KY1 0s KY1 0s
(1) After 20 h
(2) Cycle 60 min. on-'l5 min. off. 75% initial flux
Safe operation of these lamps is only warranted if used in purpose designed equipment. ln case of questions. contactyour equipment manufacturer.
l, max
l2
_T
l^^I .ltiI
I
I
I
124E
È18F
'- ac
EgG
E6Ø
Éj
250 300 350 400 450 500 550 600
Wavelength À +
J ilillJ"l rll
ll
L\ It"J
I
¡u
Jltr ."1 Jh il
1000 w 2000 w4Ð00 w
650 700 nm 750
OJ
-t
WOTANin Speci
DULUX@ Sal Colours
WOTAN DULUX@ S in special colours f re compact fluorescent lamps. Their electricaland geometrical data correspond with those of the WOTAN DULUX@ S lamps forgeneral lighting and, therefore. can be operated with the same ballasts and
lampholders (circuit diagram see page 2B).
The drfference lies in the use of special phosphors which transform the short wave UV
radiation of low pressure mercury lamps quite efficiently into radiation in the blue or
long-wave long wavelength UV range.
ApplicationsFor polymerization of plastics. adhesives, varnishes and paints. depending on thethickness of the material,'colour 71 is particularly suited for thickness over 5mm,
colour 72 for 1-5 mm and colour 78 for < 1 mm. This rule of thumb can be influencedby colour or material.
For the exposure of diazo film colour 72 is recommended.
ln medicine, for the treatment of hyperbilirubinaemia colour 71 is optimum, and for thephoto-chemical treatment of psoriasis (PUVA) colour 78.
As insect trap colour 78 is suitable.
woTAfi¡ DuLux s
7178
WOTAN DUI.UX S
9171
WOTAN DUTUX S
9/78
WOTÂN DUIUX S
11112
WOTAN DUIUX S
11178
F*l
låmp
noforcnco
Lamp wattage
Lamp current
7 11
0.1550.1 75 o.17
12
Lamp voltage 45 60 90
35C 400 450 500 550 nnr 600
Wavelength I --'ÉSpectral power distribution
WOTAN DULUX@ S 9171
r n
ilil
IJ \_ I fl-
350 40C 450 500 550 nm 600
Wavelength ¡ +
Spectral power distributionWOTAN DULUX@ S 9/78
2.9 (3) 2.6 (1 )
215
238
325 350 3i5 400 425 nm 450
Wavelenqth;, +
Spectral power distributionWOTAN DULUX@ S 11172
Radiant power after 100 h W
Length l1 mm
Length 12 (max.) mm
Burning position
Base
Starter
1) ln the range of 350-400 nm.
2) ln the range of 400-550 nm.
3) ln the range of 380-480 nm.
115
'1 38
1.4 (1 ) 2.3 (2\ 1.7 (1)
universal
G23
i nt egr al
145
168
10cì
a"'lB0| ,'.Ir60
,50è ¿t¡
oË30þ20g
bloÉ0
100
9íi
AaoIttnI
'60õ50Iå 4r,
.9
i,É0
100
90
{uoI
170I,60
õ50ìg4cË30.9Þo^
i,oE
0
t---
64
Caution:Safe operation of theselamps is only warranted ifused in purpose designedequipment. ln case ofquestions, contact yourequipment manuf acturer.
aÉ
max
HNS Germicidal andOzone Generating UV Lamps
HNS germicidal and ozone generating UV lamps save costs because of their lowpower consumption, clean operation and long service life. They prevent losses
resulting from decayed goods and provide at the same time a healthier environment.
Their disinfecting effect is equal to a 100 fold air circulation per hour, compared witha j0 fold air circulation in conventional air conditioning plants. Their radiation peaks at
253.7 nm.
The disinfection of water by shortwave UV radiation is superior to all chemical
treatments, as far as water qual¡ty and costs are concerned.
HNS UV lamps are also suitable for the erasion of microelectronic memories (EPROM)
The compact UV lamp HNS 10 and 20 W/U are particularly suitable for this purpose.
25
330d
Lañp refgrgncô
Lamp curent max.
UV radiant power
mm
mm
Lamp watta0e
lnadiance (3) !Wcm3
Tube diameler d avq. mm
Length lr max.
Length l2 max.
Service life (60%
of ¡nilial UV
râdiant powed
Base
Ballast
Starter (see page 34)
HNS GsOFR(1)
HNS 5/UOZ(r)
150
18
1.5
HNS 10/UOZ
(r)HNS IO/UOFR HNS 15/OFn
(21 (21
110
10 15
50 40
HNS 20/UOZ(1)
HNS 30/OFR
(21
500
20
80
10
221
142 835
HNS 55/OFR
(21
170
15
26
895
c 13 (4)
sr 191
930370
30
90
tb
895
4 3.5
10 10 26
146 221
68 142
6000
E21 G 13 (4)
lOWSS
built-in St 111
iI
I
120
79
G23
438
378
821
20wss 40wss 30w-f8ss 80wss5
1020
HNSHNSHNS
UUU
HNSG 55/7/9¡ 1 W SS
300
CircuitHNS 15HNS 30HNS 55
D : ballastL : lampN : neutralp : phase
St : starter
600 nm 700
built'in st 111
N P N
Circuit HNS G5HNS 5/UHNS 1O/UHNS 2OlU
Spectral power distribut¡on
I 100
980ooË60.9Þì¿oj&20
0100 200Wavelength I +1) HNS 10 and 20 WU oz only
400 500
HNS 15 W
HNS 30 W
HNS 55 W
(1) Germicidal and ozone generating lamp.
(2) Ozone free germicidal lamp.
(3) UV irradiance 253.7 nm measured at a distance of 1 m, at the lamp centre, at 20'C ambient temperature. free burning.
Between distances of 0.3 anrr 3.0 m, the inadiance is proportional to the inverse value of the square distance. The legs of
lamp HNS 1 0 and 20/U po¡nt towards the iradiated object.(4) As fluorescent lamps L 15/.. and L 30/..(5) Minimum order¡ng quantilies.
E
= EF- T ,ç E
3ò
-q-
-
F_;_-ìd_g_
E
R
g i_iT
65
@o
SICCATHERM@HALOTHERM@lnfrared LamPs
SICCATHERM@ infrared lamp for¡agriculture, industry, research and trade
SICCATHERM@ are quality infrared lamps. The maximum of their radiation is in the
infrared (heat). the visible portion (light) is small
SICCAÌHERM@ pAR, compared with conventional infrared lamps, are particularly
economical:up to 30% lower power consumption at the same intensity are achieved
by its optimized reflector design for a narrower beam and its computer calculated
diffuser for uniform irradiance.
Applications
I in animal breeding of poultry, pigs, calves, foals'
Function when used for animals: Faster growth rate due to greater appetite and
improved utilization of fodder. lncreased resistance against diseases. No crowding of
the young animals due to lack of warmth, therefore lower breeding losses' Clean
hygienic stables because of dry litter. lncreased efficiency'
O in food processing for pasteurizing and drying'
! in industry for varnish and paint curing. for enamelling processes and for distilling'
Function when drying:The infrared radiation generated by the SIC_CATHERM@ lamp
penetrates the material to be dried and is absorbed in its interior. Thus considerable'heat
exchange with the surrounding air can be avoided. l1 is advantageous that not
only the surfãce is dried, but the entire substance is heated. The drying process is
accomplished as if the evaporation surface were enlarged several times.
Base E 27
Ø'l
SICCATHERM@100 w,175 W
Ø 127 max.
SICCATHERM@
225 max.
-lHALOTHERM@
Lamp reference
Average
reference
Burning
posit¡on
1OO SICCA LR red filter BUt90
1 50 SICCA LR red filter 5000 universal
175 SICCA LR red filter BUI90
250 SlccA LR red {ilter universal
250 StccA Luniversal
250 STCCA I fosted universal
375 SICCA Iuniversal
HALOTHERM@ tungsten-halogen infrared lamps for today's hobs.
Today's kitchen-ranges with ceramic hobs use not only conventional heating
elements, but also HALOTHERM@ tungsten-halogen infrared lamps. The full radiantpower is instantly available.after switching on. The heat can be used for a specific
task more quickly and more discriminately.
Lamp
Burning position
_l
66
HALOTHERI\4 5OO
Lâmp w¿ttage Lamp voltage
H 115"
Caution:Before treatment ofdiseases consult yourphysician regardingoptimum treatment.
122
THERATHERM@ DE LUXE
Ø 127 m?x
THERATHERM@
@O
THERATHERM@lnfrared Lamps
THERATHERM@ infrared lamps emit in the therapeutical effective range of short waveinfrared. The specially prgmented red filter provides an agreeable. uniform colour. Theparabolic reflector beams the radiation to high irradiance. THERATHERM@ infraredlamps radiate the full radiant energy immediately after switch-on. They excell by a verylong lamp life.
Biological effects:
THERATHERI\¡l@ are infrared lamps of high biological value. mainly because of theirgreat translaminar, as well as thermal effects in the organism. The cells and organsexposed to the thermal radiation are activated and the blood circulation is improvedon account of the widening of the blood vessels. This makes possible an acceleratedreduction of metabolites and mobilisation of antigens in the body. The result is a
palliation of pains with pathological symptoms such as rheumatism. muscular pains,
sciatica, arthritis. lumbago, face neuralgia, influenza, sinusitis and bronchial catarrhs,inflammation of the throat and middle ear, abrasions, cuts and grazes, fresh scars,other minor injuries, contusions, sprains, stains, bruises. effusions of blood. toothachefollowing dental treatment etc. The absorbed heat is physiologically distributedthrough the body by the blood circulation.
Since the main part of the radiation penetrates the skin and stratum germinativumwithout being absorbed. the skin is not affecled so that no local burns will occur,provided the directions for use are followed.
Applications:
THERMATHERM@ are recommended for therapeutical applications:
- in private houses
- in practices of doctors. physiotherapists. or masseurs.
- in hospitals and nursing-homes
- for face and beauty treatment
- as additional infrared lamps in solaria systems WOTAN ULTRA-VITALUX@
THERATHERM@ DE LUXE: Pressed glass reflector bulbTHERATHERM@: Hard glass reflector bulbBase E2-IUniversal burning position
o
litñE
@
Lamp
wattage Service life
h
Weight
sLamp relerence
THERATHER DE LUXE
THERATHER
5000
5000
.L-_67
v,o.EGJoLJP.ge=
f,*-:'* \
.<â'
(Ëns
f.Ën¡¡l
\#æ
ffimffi*nn\
a-.{¡t¡t't't
t=i
È*.@
!ùr.¡+
ffitâE
*Gfl
f.=ili
'!*.-l
,f?r-\-.-
fffiril\!i!!fli
€Ët
frËe{Ë
r
cË@€ô
.4*/å,
- _ I
.,.,.,.
1rÞ'_ift*
\--l!._
{Fe*'
.ö
ffirirt*¡-,'-"
ffii':¡n¡\m
.-¡'ì'(G
'/
-r....I ¡ i*,<
<:,lh¡rr!-ræ
''Çffirr¡¡¡'&
Þ.
æ.
,3
f-:*¿f'r ¿
-.-i¡frit r.-É
lr-¡ ---? r¡,,,,I r þdsP
urrr'¡*
i-."'r'ri
FoÊ
i.àa\ñl-.,.,r.
eF.'
Ëir-¡
[r þ.-1lHl
\i-r.nftr¡¡,
G.
,,eßf . ¡'{rF
u¡¡¡¡' -'Z
1o b'F
æ'.
,ffim\.æ
:.4-I-ffitr*ir'sóæ
"lE
MINIWATT@Tu ngsten-halogenMiniature Lamps
MINIWATT@ tungsten-halogen lampslong lifeBase P 1 3.5s
Lamp LampLamp Average
life
h
Luminous
N,llNlWA]-[@
lamp reference
voltage wattage
MINIWATT@ tungsten-halogen lampsfor battery useBase P 1 3.5s
(HPRs1 )
Base E10
curent
Ø
max.
Ø9,3
max.
E
o
Ø9,3
max. Base BA 9s
Tungsten-halogen vehicle lampsBase PX 1 3.5s
Base BA 'l 5s
Base BA 9sØ10
max.
Ø8,8
dE M¡NIWATT@ tungsten-halogen lamps for LCD illumination
Tungsten-halogen lamps have important advantages:¡ higher and constant luminous flux throughout lamp life¡ higher colour temperature (approx. 3000 K)-white light¡ unchanging. very good colour rendering properties throughout life¡ long lifeand, therefore. are particularly suited for LCD illumination, resp. coupling with fiber opticsPlastic holder MF for printed circuit boards with a thickness of 2 mm.Plastic holder MFX for printed circuit boards with a thickness of 1.6 mm.Wire ended on request.
Tungsten-halogen navigation lampBase BA 9s
lVleasured with plastic holder.Similar to Fig. 3. but with vertical filament.
4
idE
@_
N
69
-T
Miniature LamPsLamp Types
À¡tNtwAfi@lamp
reference
LampLamp Lamp
curentmA
! voltage wattage
ERG lamp relerence
MINIWATT@ lamps are used as indicator lamps. e.g. in domestic appìiances. switchä..i ànO officã rirachin.t ãi *.ll às in entertainmãnt eleclronics. electronic data
firocessing equipment and medicinal appliances
BenefitsWOTAN MINIWATT@ and ERG Lamps offer these advantages:Läi'å'i'tL' ìO,OOO-IOOO fr ii¡. liri-"u1"ét listed below reier to 10,000 h. the second
valuãs to 1000 h, unless otherwise stated.)lnternationallY standardized
200-250
19-24
10-15 50-56 40-1 00
mâx.
ERGRL
ma¡.
ERGRL/r
max.
MINIWATT68OO seriesBA 15d
MINIWATT65(X) series
MINIWATT68O0 seriesE14
ERGRL/r
Pygmy sìgn
6-1 0 355-400 (1 )
1 0-1 5 560-630 40-1 00
110-140 6-1 063-70
s25
f16
RL 24V 5W E14
210-260
19-24
24-30
32-36
3.5-51 B0-200
1 40-1 60
1-10 250-280 25-63RL 3OV 5W E'14
Rr 24-30V 6-10W E14 681 4
34-42 3.5-5 100-',1 10 (1)RL 42V 5W E14
68',l6 36-45 7,10 200-220 25-63RL 36-45V 6-8W E14
3.5-5 70-80 (1)RL 6OV 5W E'I4 45-60
681 B 7,10 140-',t 60 25-63RL 48-60V 6-10w E',l4
1 05-1 30 5-7 45-50 (1)RL 110-130v 5-7W E14
6822 r10-140 7-10 63-70 25-63RL 1 10-140V 6-10W E',14
RL 220-250V 6-10W 814 6824 200-250 7-10 36-40 25-63
210-260 5-7 22-25RL 220-260V 5-7W E14
RL/r 24V 5W E14 19-24
24,30
38-48
1 B0-200
1 40-1 60
3.5-5 90-1 00 (1)
70-80
32-36
25-28
1 80,200
1 4o-1 60
1-10 250-280 25-63
RL/r 30V 5W E14
RL/r 48V 5W E14
RL/l 60V 5w E1 4 48-60
1 05-1 30RL/t 130V 5W E14
RUt 220-26OV 5-7W E 1 4
BA15d
RL 24V 5W BAl 5d
1 0-260
19-24
24-30RL 3OV 5W BA15d
RL 24-30V 6-1 0W BA1 5d 681 5
34-42 3.5-5 100-110 (r)RL 42V 5W BA1 5d
681 7 36-45 1-10 200-220 25-63RL 36-45V 6-10w BAl5d
70-80 (1) f17RL 6OV 5W BA1 5d 45-60RL 48-60V 6-1 0W BA1 5d 681 I 7-10 1 40-1 60 25-63
1 05,1 30 5-7 45-50 (1)RL 1 1 0-1 30V 5-7W BAl 5d
6823 110-140 7-10 ô3-70 25,63RL 110-140v 6-10w BAI5d
RL 220-250V 6-1 0W BA1 5d 200-250' 1-10 36-40 25-63
210-260 5-1 at-2qRL 220-260V 5-7W BA1 5d
RL/r 24V 5W BAl5d'19 24 1 80-200
'140-160
3 5-5 90-1 00
70-80
JZ_JO
RL/t 30v 5w BA1 5d 24-30
3B-48
48,60RL/I 48V 5W BAl 5d
(1) T16
RL/l 60V 5W BA15d
RL/r 1 30V 5W BA1 5d 1 05-1 30
\
70
(1) On requesl.
5-7W BA1 5d 210-260 25-28
Miniature LampsLamp Types
max.11
max.28
ERGE10
max.
max.28
ERGKRL
a103
MINIWATT3400 B Series
Lamp
Iamp
EBG
lamp
¡,4LNIWATTR
reference
Lamp
voltage wattage cuffentLamp Lumrnous
reference
flux
lm
Bulb
slze
KRL 6V 3W E1O 4-6 450-500
34s0 6-1 1.8 2.5 315,355
3353 10 1208-1 1 90-1 00
Ø10 3l ma |*
MINIWATTE10
KRL,I2V 3W E1O t. ¿-J 220-250
3453 12-16 2-2.8 1 60-180
33 61 14-18 1.2-1.8 90-1 00(1)
GE
@
70205 0.8-1 1 45-50
KRL 24V O.O8A E1O 19-24 1.2 1.8 70-80
KRL 24V 3W ElO 'l '10-1 25
1.4-2 63-70
90100 616
2.2,3 T10KRL 3OV O,O7A ElO 24-30KRL 3OV 3W E,lO 3456
KRL 36V 3W E1O 28-36 2.2-3 70-80
KRL 42V 3W ElO 34-42 63-70 (1)3459 36-45 2-2.8 56-63
KRL 48V 3W E1O 38,48 2.2 3
3462 45,603482
2-2.8 40-45 4-10
4-55 80-90
KRL 6OV 3W E'10 4B-60 223 45 50 (1)
(1)
KRL 13OV O.O2A E1O
BAgs
KRL 6V 3W BA9s
105 130 18-25
22-3
1 8-20
450-500463450 B 6-1 1B-25 315 355
KRL 1 2V 3W BA9s 10 12 2.2-3 220-250
3453 B
3473 B
2 28 1ô0 180
4,55 31 5-35512-16
KRL 24V 0084 BA9s 1.2-1 B 70-8019 24KRL 24V 3W BA9s 22-3 1 10-1 25
KRL 3OV O,O7A BA9S 1 4-2 63-70 T10
KRL 30V 3W BA9s 3456 B 24-30 aa a 90-1 00 6-1 6
3476 B 4-5.5 1 60-1 80
oE
@N
KRL 36V 3W BA9s 2B 36
34 42
3&48
70-80
63-70(1)
KRL 42V 3W BA9s 2 2-3KRL 4BV 3W BA9s 56-63
KRL 60V 3W BA9s 3462 B 4B-60 45-50 4-1 0
3482 B 4-5.5 B0-90 (1)KRL
,130V O.O2A BA9S
(1 ) On request.
1 05 1 30 1.8-2 5 1 8-20
L-_71
I
Miniature LamPsLamp Types
¡/tNtwATf@lamp
reference
Lamp
voltage waltage
Lamp
culfent
mA
Lamp LuminousØr 0,3max
baso2501 1.8-2.5 31 5-355
12-16 2-2.8 160-',1 80
1 2-3
T',t0
T5
f4
l_ (1) 24-30 2,2.880,90
40-45
0]6-0.22 28-32
iF 48-60
67 0.4-0.55 80-9025(X)
2300Series
2200uSeries
62150Series 0.8-1.1 1 60-1 80
or0 3 12-16 0.3-0.45 32-36 ',l-2.5
1-1.4 80-90 4-10
2342 24-300 6-0.9 .J Z_JO
45-50
2506/1
Wire Ended
2509/1
2205 U 0.2-o.28 40,45 0.6-1.6
25OOl1Series
2206 U 0.4-0.55 80-90
2209 U
2211 U
0.5-0.7 40-4512-1 6 1-1.4 80-90 (7)
2202 U 24-30 1.2-1.8 50-56
2306 K 016-022 28-32 0.4-1
2307 K 6-7 0.4-0.55 80-90 1 6-4 T5
2305 K 60-1 80 3-B0.8-1.1
(5) 2121 K
2722 K
80-9011-14 (1)
1.4-2 12-1 4
2322 K
2321 K12-16 03445 28-32 1-2.5
1,1 4 80-90 4-10
3200 u 0.1-0.14 20-225-6 0.2-0.28 40-453201 U
2300K2700KSeries
3204 U 0.25-0.35 20-22 (7)(6)
3205 U 12-16 0.5-0.7 40-45
80-90fa
ffi=Ii
3206 U
E
Also available f rosted.Possiblv subrecl to minimum orderrng quantrtyFrosted radiò oanel lamos. r ated lile 5000 h.
Frosted radio banel lamþs, rdted life 10000 hW"ä'ð"¿r ""ì"¡"
i"ùeieà anO *"i¿óð.-t¡'åy ur. not straightened when delivered. lf dip solder wire ends (lEC Pub 68-2 20)
are reourred. add... UK lo lamp reference.W¡re eäds can be drp soldered (lEC Publ. 69-2 20)On request.
3200uSeries
/z
Miniature LampsTechnical lnf ormation
Voltage characteristicsThe diagram shows the interdependence between voltage variation and luminous flux,wattage. current and life.
Burning position
Universal.
Lamp bases
The IEC Lamp Base Code (lEC Publ. 61, BS 5101) indicates. first by upper case letter,the type of base. The figures following indicate the nominal outer diameter of the base
barrel or screw Thread in mm. The last lower case letter describes the number ofcontacts (s : single. d : double).Withdrawn lamp base and bulb size designations should not be used any longer.Some commonly used abbreviations were:
Voltage Characterist¡cs M iniature LampsIEC and BS bases Wrthdr¿wn bases
BA9s fVCC
4
50
l020
r0I6543
2
l
il
++,\
\
\I
z I \rIL
/
6090 800,á r00% 12)o/o J40%
60% 800/o 100% 12Oo/o 140o/o
6
5
2
15
B1 5s or BA1 5s
B1 5d or BA1 5d
B22d
B?2d,3
E5
E10
SBC
BC
SCC
3 pin BC
LES
¡/ES
SESE14
OOo/o
søq)
ro¡
.ìgq)
cc
E2l
E40
ES
0.90.8070.6
05
12
1= l00o/o0.80.6050.403
o2
0100800600s
l\,4etíc
bulb sizes
GES
Wrlhdrawn lmperial
b!lb srzes
r11
16
14
11
5
T51
4+
3t
a1
04
0.3
0.2
015
100040.03
0.021l
1l4
Supply Voltage (%)
Õ: Luminous Flux (lm)P : lnput Power (W)I : Current (A)L = Life (h)
L-_/ó
Spectral Power Distributionof Fluorescent LamPs
Visible range from 380 to 780 nm
Height of illustration corresponds *',n 41'"L-
11 IVAXILUX@ DaYlight 21 N/AXILUX@ White 31 N/AXILUX@ Warm White
12 MAXILUX@ DE LUXE DaYlight 32 MAXILUX'rì DE LUXE Warm White 41 MAXILUX@ INTERNA@
22 MAXILUX@ DE LUXE White 20 Cool White 30 Warm White
25 Neutral 76 DE LUXE NATURA 77 FLUORA@
Natural daylight (D ô5)
Height of illustration corresponds *i,h 200 tw
m2 1 000 lx 10 nm
74
lncandescent lamP 23 White
Spectral Power D istributionof Discharge LampsVisible range from 380 to 780 nm
Height of illustration corresponds *'.n *'^9!IÏ1000 lm 10 nm
POWER STAR HOI@
HOt... /D
HOt ... /N
HQI.. . /NDL
HOI-TS.. /WDL
HOL lamps
HOL
HOL DE LUXE
HQL SUPER DE LUXE
HQL-B SUPER DE LUXE
HWL lampsSODIUM lamps
HWL
HWL-R DE LUXE
VIALOX@ NAV DE LUXE
VIALOX@ NAV¿m
HQL-R DE LUXE SOX
7F
Lamp Base GomParison
AEE 10(EX 10)EC 7004-22
rFC 7004-69
EP 1O
tEC 7004-30814lgc 7004-23
E27tEc 7004-21
E40tLc 7004-24
@
0@@
m815 drEc 7004-11
G 24 d-2
BY 22dtEc 7004-1 7
Fc2BA9Stlc 7004-14
BA 15 drEc 7004-1 1 A
G13tEc 7004-51
2 G13rEc 7004,33
G'10qtEc 7004-54
Fa6rEc 7004-55
G5tEC 7004,52G 24 d-1 G 24 d-3 2G11
@o
UP 13,5 stEC 7004'40
@
? ffiG4 GY6,35 GX16dtEc7004-72 IEC 7004-59
Fa4 R 7 s¡5tEc 7oo4 58 tEC 7004'92
lol lo
I
H
I
H
76
The IEC numbers refer to IEC Publ. 61 : BS 5101
W 2,'1 x 9,5 dtEC 7004 91
Sales Programme
Sales Programme
lndoor and Outdoor LightingGeneral lighting service lampsFluorescent lampsDischarge lampsMiniature lampsSpecial lamps
llluminating ldeasLuminaires with fluorescent,MAXILUX@ and compact fluorescent lamps
Luminaires for tungsten-halogen lamps
Plant display luminairesLuminaires for special applications
Vehicle LampsAutomobile lampsMotorcycle lampsMoped lampsBicycle lampsAutomobile spare lamP boxesSales aids
Indicator and Signal LamPsMINIWATT@ lamPs
Tungsten-halogen lamps for pocket and LCD lightsTelephone lampsRadio panel lampsAircraft lampsNeon glow lampsMiniature lamps
Traffic Light LamPs
Light for Photo, Studio and TheatreFlipFlash. FlashBar. flashcube. VACU BLITZ@
SUPERPHOT@ and NITRAPHOT@ photographic lampsXENOPHOT@ HLX tungsten-halogen projector lampsBELLAPH'OT@ lamps for slide and cine projectionProjector lampsCinema and episcope lampsEnlarger lampsDarkroom lampsTungsten-halogen for overhead and advertisingprojectors, microfilm readers and microscopesHALOS HCI metal halide lamps for overheadprojectorsHALOMET HTI metal halide lamps with reflectorlamps for film, TV and photo studiosTheatre lampsFloodlighting lampsMETALLOGEN HMI metal halide lamps
Photo, Video and Film Equipment for PerfectLightingElectronic flash unitsVideo and film lightsSlide viewersDarkroom safety lights
Light for Cine Projection, Technology andScienceHBO short-arc mercury lampsXBO short-arc xenon projector lampsXBF water cooled xenon lampsKBF water cooled krypton lampsE U RAM@ electronic flashtubesSpectral lampsTungsten-halogen airport lampsTungsten-halogen infrared reflector lampsScientific lamps
Please request catalogues covering the abovesubjects by asking for the boldly printed titles.
11
Registered Trade MarksGeneral lnformation
Registered trade marks
ARAM@AS@
BELLALUX@BELLAPHOT@BILUX@
CENTRA@CENTRALUX@CENTRONIC@CIRCOLUX@COMBILUX@CONCENTRA@DEKOLUX@DEOS@
DIADEM@EURAM@FLUORA@GIGANT@HALOFLOOD@HALOMET@
HALOS@HALOTHERM@HALOTRONIC@JOGGILUX@LINESTRA@LUMILUX@LUMINESTRA@LUMIPHOT@MAXILUX@MAXILUX INTERNA@METALLOGEN@MINIWATT@MONTASOL@NERON@
NITRA@NITRAPHOT@OPALINA@os@OSA@
i
OVISIL@
POWERTRONIC@OUICKTRONIC@RAM@
SICCATHERM@SUPERLUX@SUPERPHOT@THERATHERM@ULTRA-VITALUX@URDOX@VACUBLITZ@VIALOX@WOTAN@WOTAN BELCOLOR@WOTAN COMPACTA@WOTAN DULUX@WOTAN EVERSUN@
WOTAN HALOCENT@WOTAN HALO STAR@
WOTAN HALOTUBE@WOTAN HBO@
WOTAN HLX@
WOTAN HMI@
WOTAN HOI@
WOTAN HOL@
WOTAN HTI@
WOTAN L-INTERNA@WOTAN LONGLIFE@WOTAN NAV@
WOTAN POWER STAR@
WOTAN SOLARCA@WOTAN ULTRAMED@WOTAN ULTRATECH@WOTAN UVISTRA@WOTAN XBF@
WOTAN XBO@
XENOPHOT@
General lnformation
The technrcal data are in accordance with BS (British
Standards) and IEC (lnternational ElectrotechnicalCommission) where applicable.
All lamps. with the exception of those marked otherwise,are designed for supply voltages of 240 Y
The supply of lamps not listed. including those withdifferent lamp bases and voltages. will be investigated
upon request.
Sales and delivery are subject to the WOTAN Conditions
of Sale valid on the day the sales contract was effected'
Operating data and dimensions are subject to the usual
tol erances.
Technical modifications are reserved and supply is
subject to availabilitY.
Lamps are wrapped in lhe original white-blue folding box'
Standard packs differ depending on the size and shape of
the lamps.
Standard packs enjoy important advantages:
Prompt deliverySimple and cost saving warehouse handlingNo time consuming individual count on arrival of thegoodsExact contents description on each stacked carton
No danger of wrong type identificationLess breakage.
WOTAN Lamps Ltd. is constantly developing and improving its products. The right is reserved to change
specifications given in this catalogue without notice.
Every effort hai been made to make the information as useful and accurate as possible, but the customer must regard
this information as being by way of general guidance only and WOTAN Lamps Ltd. can accept no liability in
connection therewith.
The Health and Safety at Work etc. Act 1974
Essential guidance for safe installation. maintenance and
disposal of WOTAN lamps is provided with the product.More detailed information is given in the relevantProduct lnformation available free on request.
18
l.
WOIAN advertising board 1910 The Museum of London
WHO IS WOTAN?WOTAN Lamps Limited is a UK subsidiary of OSRAM GmbH and wholly owned by SIEMENS AG.
Sir William Siemens was not only one of the founders of SIEMENS, but also the first president of what is today thelnslitution of Electrical Engineers in London. ln 1883 he was knighted by Oueen Vicloria for his services to the Britishelectrical industry.
The SIEMENS group today achieves sales of over f17 billion. and more than 360.000 employees manufacture electricalequipment from the smallest microcomputer components to the largest nuclear power plants.
OSRAM GmbH is the second largest lamp manufacturer in Europe and the fourth largest in the world. As specialistsOSRAM GmbH manufacture only lamps. in 30 factories wor-ldwide.
The trademark WOTAN is derived from the words WOlfram (tungsten)'and TANtalum. metals used in lamp making. Lampsbranded WOTAN have been sold in the United Kingdom for over three quarters of a century.
WOTAN represents technical progress and high quality achieved by worldwide teamwork. This is and will always be theaim of WOTAN.
Printed rn England1087 1 5000
i
III
79
It(
WOTAN LAMPS LIMITEDWOTAN House, 1 Gresham Way, Durnsford Road, London, SW19 8HU3 01-947 1261B 929627 WOTANL Gtffit 01-947 5132